the last step in the research paper process is

Visit the University of Nebraska–Lincoln
Apply to the University of Nebraska–Lincoln
Give to the University of Nebraska–Lincoln

Search Form

Overview of research process.

The Research Process

Anything you write involves organization and a logical flow of ideas, so understanding the logic of the research process before beginning to write is essential. Simply put, you need to put your writing in the larger context—see the forest before you even attempt to see the trees.

In this brief introductory module, we’ll review the major steps in the research process, conceptualized here as a series of steps within a circle, with each step dependent on the previous one. The circle best depicts the recursive nature of the process; that is, once the process has been completed, the researcher may begin again by refining or expanding on the initial approach, or even pioneering a completely new approach to solving the problem.

Identify a Research Problem

You identify a research problem by first selecting a general topic that’s interesting to you and to the interests and specialties of your research advisor. Once identified, you’ll need to narrow it. For example, if teenage pregnancy is your general topic area, your specific topic could be a comparison of how teenage pregnancy affects young fathers and mothers differently.

Review the Literature

Find out what’s being asked or what’s already been done in the area by doing some exploratory reading. Discuss the topic with your advisor to gain additional insights, explore novel approaches, and begin to develop your research question, purpose statement, and hypothesis(es), if applicable.

Determine Research Question

A good research question is a question worth asking; one that poses a problem worth solving. A good question should:

Be clear . It must be understandable to you and to others.
Be researchable . It should be capable of developing into a manageable research design, so data may be collected in relation to it. Extremely abstract terms are unlikely to be suitable.
Connect with established theory and research . There should be a literature on which you can draw to illuminate how your research question(s) should be approached.
Be neither too broad nor too narrow. See Appendix A for a brief explanation of the narrowing process and how your research question, purpose statement, and hypothesis(es) are interconnected.

Appendix A Research Questions, Purpose Statement, Hypothesis(es)

Develop Research Methods

Once you’ve finalized your research question, purpose statement, and hypothesis(es), you’ll need to write your research proposal—a detailed management plan for your research project. The proposal is as essential to successful research as an architect’s plans are to the construction of a building.

See Appendix B to view the basic components of a research proposal.

Appendix B Components of a Research Proposal

Collect & Analyze Data

In Practical Research–Planning and Design (2005, 8th Edition), Leedy and Ormrod provide excellent advice for what the researcher does at this stage in the research process. The researcher now

collects data that potentially relate to the problem,
arranges the data into a logical organizational structure,
analyzes and interprets the data to determine their meaning,
determines if the data resolve the research problem or not, and
determines if the data support the hypothesis or not.

Document the Work

Because research reports differ by discipline, the most effective way for you to understand formatting and citations is to examine reports from others in your department or field. The library’s electronic databases provide a wealth of examples illustrating how others in your field document their research.

Communicate Your Research

Talk with your advisor about potential local, regional, or national venues to present your findings. And don’t sell yourself short: Consider publishing your research in related books or journals.

Refine/Expand, Pioneer

Earlier, we emphasized the fact that the research process, rather than being linear, is recursive—the reason we conceptualized the process as a series of steps within a circle. At this stage, you may need to revisit your research problem in the context of your findings. You might also investigate the implications of your work and identify new problems or refine your previous approach.

The process then begins anew . . . and you’ll once again move through the series of steps in the circle.

Continue to Module Two

Appendix C - Key Research Terms

Key Steps in the Research Process - A Comprehensive Guide

Embarking on a research journey can be both thrilling and challenging. Whether you're a student, journalist, or simply inquisitive about a subject, grasping the research process steps is vital for conducting thorough and efficient research. In this all-encompassing guide, we'll navigate you through the pivotal stages of what is the research process, from pinpointing your topic to showcasing your discoveries.

We'll delve into how to formulate a robust research question, undertake preliminary research, and devise a structured research plan. You'll acquire strategies for gathering and scrutinizing data, along with advice for effectively disseminating your findings. By adhering to these steps in the research process, you'll be fully prepared to confront any research endeavor that presents itself.

Step 1: Identify and Develop Your Topic

Identifying and cultivating a research topic is the foundational first step in the research process. Kick off by brainstorming potential subjects that captivate your interest, as this will fuel your enthusiasm throughout the endeavor.

Employ the following tactics to spark ideas and understand what is the first step in the research process:

Review course materials, lecture notes, and assigned readings for inspiration
Engage in discussions with peers, professors, or experts in the field
Investigate current events, news pieces, or social media trends pertinent to your field of study to uncover valuable market research insights.
Reflect on personal experiences or observations that have sparked your curiosity

Once you've compiled a roster of possible topics, engage in preliminary research to evaluate the viability and breadth of each concept. This initial probe may encompass various research steps and procedures to ensure a comprehensive understanding of the topics at hand.

Scanning Wikipedia articles or other general reference sources for an overview
Searching for scholarly articles, books, or media related to your topic
Identifying key concepts, theories, or debates within the field
Considering the availability of primary sources or data for analysis

While amassing background knowledge, begin to concentrate your focus and hone your topic. Target a subject that is specific enough to be feasible within your project's limits, yet expansive enough to permit substantial analysis. Mull over the following inquiries to steer your topic refinement and address the research problem effectively:

What aspect of the topic am I most interested in exploring?
What questions or problems related to this topic remain unanswered or unresolved?
How can I contribute new insights or perspectives to the existing body of knowledge?
What resources and methods will I need to investigate this topic effectively?

Step 2: Conduct Preliminary Research

Having pinpointed a promising research topic, it's time to plunge into preliminary research. This essential phase enables you to deepen your grasp of the subject and evaluate the practicality of your project. Here are some pivotal tactics for executing effective preliminary research using various library resources:

Literature Review

To effectively embark on your scholarly journey, it's essential to consult a broad spectrum of sources, thereby enriching your understanding with the breadth of academic research available on your topic. This exploration may encompass a variety of materials.

Online catalogs of libraries (local, regional, national, and special)
Meta-catalogs and subject-specific online article databases
Digital institutional repositories and open access resources
Works cited in scholarly books and articles
Print bibliographies and internet sources
Websites of major nonprofit organizations, research institutes, museums, universities, and government agencies
Trade and scholarly publishers
Discussions with fellow scholars and peers
Identify Key Debates

Engaging with the wealth of recently published materials and seminal works in your field is a pivotal part of the research process definition. Focus on discerning the core ideas, debates, and arguments that define your topic, which will in turn sharpen your research focus and guide you toward formulating pertinent research questions.

Narrow Your Focus

Hone your topic by leveraging your initial findings to tackle a specific issue or facet within the larger subject, a fundamental step in the research process steps. Consider various factors that could influence the direction and scope of your inquiry.

Subtopics and specific issues
Key debates and controversies
Timeframes and geographical locations
Organizations or groups of people involved

A thorough evaluation of existing literature and a comprehensive assessment of the information at hand will pinpoint the exact dimensions of the issue you aim to explore. This methodology ensures alignment with prior research, optimizes resources, and can bolster your case when seeking research funding by demonstrating a well-founded approach.

Step 3: Establish Your Research Question

Having completed your preliminary research and topic refinement, the next vital phase involves formulating a precise and focused research question. This question, a cornerstone among research process steps, will steer your investigation, keeping it aligned with relevant data and insights. When devising your research question, take into account these critical factors:

Initiate your inquiry by defining the requirements and goals of your study, a key step in the research process steps. Whether you're testing a hypothesis, analyzing data, or constructing and supporting an argument, grasping the intent of your research is crucial for framing your question effectively.

Ensure that your research question is feasible, given your constraints in time and word count, an important consideration in the research process steps. Steer clear of questions that are either too expansive or too constricted, as they may impede your capacity to conduct a comprehensive analysis.

Your research question should transcend a mere 'yes' or 'no' response, prompting a thorough engagement with the research process steps. It should foster a comprehensive exploration of the topic, facilitating the analysis of issues or problems beyond just a basic description.

Researchability

Ensure that your research question opens the door to quality research materials, including academic books and refereed journal articles. It's essential to weigh the accessibility of primary data and secondary data that will bolster your investigative efforts.

When establishing your research question, take the following steps:

Identify the specific aspect of your general topic that you want to explore
Hypothesize the path your answer might take, developing a hypothesis after formulating the question
Steer clear of certain types of questions in your research process steps, such as those that are deceptively simple, fictional, stacked, semantic, impossible-to-answer, opinion or ethical, and anachronistic, to maintain the integrity of your inquiry.
Conduct a self-test on your research question to confirm it adheres to the research process steps, ensuring it is flexible, testable, clear, precise, and underscores a distinct reason for its importance.

By meticulously formulating your research question, you're establishing a solid groundwork for the subsequent research process steps, guaranteeing that your efforts are directed, efficient, and yield productive outcomes.

Step 4: Develop a Research Plan

Having formulated a precise research question, the ensuing phase involves developing a detailed research plan. This plan, integral to the research process steps, acts as a navigational guide for your project, keeping you organized, concentrated, and on a clear path to accomplishing your research objectives. When devising your research plan, consider these pivotal components:

Project Goals and Objectives

Articulate the specific aims and objectives of your research project with clarity. These should be in harmony with your research question and provide a structured framework for your investigation, ultimately aligning with your overarching business goals.

Research Methods

Select the most appropriate research tools and statistical methods to address your question effectively. This may include a variety of qualitative and quantitative approaches to ensure comprehensive analysis.

Quantitative methods (e.g., surveys, experiments)
Qualitative methods (e.g., interviews, focus groups)
Mixed methods (combining quantitative and qualitative approaches)
Access to databases, archives, or special collections
Specialized equipment or software
Funding for travel, materials, or participant compensation
Assistance from research assistants, librarians, or subject matter experts
Participant Recruitment

If your research involves human subjects, develop a strategic plan for recruiting participants. Consider factors such as the inclusion of diverse ethnic groups and the use of user interviews to gather rich, qualitative data.

Target population and sample size
Inclusion and exclusion criteria
Recruitment strategies (e.g., flyers, social media, snowball sampling)
Informed consent procedures
Instruments or tools for gathering data (e.g., questionnaires, interview guides)
Data storage and management protocols
Statistical or qualitative analysis techniques
Software or tools for data analysis (e.g., SPSS, NVivo)

Create a realistic project strategy for your research project, breaking it down into manageable stages or milestones. Consider factors such as resource availability and potential bottlenecks.

Literature review and background research
IRB approval (if applicable)
Participant recruitment and data collection
Data analysis and interpretation
Writing and revising your findings
Dissemination of results (e.g., presentations, publications)

By developing a comprehensive research plan, incorporating key research process steps, you'll be better equipped to anticipate challenges, allocate resources effectively, and ensure the integrity and rigor of your research process. Remember to remain flexible and adaptable to navigate unexpected obstacles or opportunities that may arise.

Step 5: Conduct the Research

With your research plan in place, it's time to dive into the data collection phase. As you conduct your research, adhere to the established research process steps to ensure the integrity and quality of your findings.

Conduct your research in accordance with federal regulations, state laws, institutional SOPs, and policies. Familiarize yourself with the IRB-approved protocol and follow it diligently, as part of the essential research process steps.

Roles and Responsibilities

Understand and adhere to the roles and responsibilities of the principal investigator and other research team members. Maintain open communication lines with all stakeholders, including the sponsor and IRB, to foster cross-functional collaboration.

Data Management

Develop and maintain an effective system for data collection and storage, utilizing advanced research tools. Ensure that each member of the research team has seamless access to the most up-to-date documents, including the informed consent document, protocol, and case report forms.

Quality Assurance

Implement comprehensive quality assurance measures to verify that the study adheres strictly to the IRB-approved protocol, institutional policy, and all required regulations. Confirm that all study activities are executed as planned and that any deviations are addressed with precision and appropriateness.

Participant Eligibility

As part of the essential research process steps, verify that potential study subjects meet all eligibility criteria and none of the ineligibility criteria before advancing with the research.

To maintain the highest standards of academic integrity and ethical conduct:

Conduct research with unwavering honesty in all facets, including experimental design, data generation, and analysis, as well as the publication of results, as these are critical research process steps.
Maintain a climate conducive to conducting research in strict accordance with good research practices, ensuring each step of the research process is meticulously observed.
Provide appropriate supervision and training for researchers.
Encourage open discussion of ideas and the widest dissemination of results possible.
Keep clear and accurate records of research methods and results.
Exercise a duty of care to all those involved in the research.

When collecting and assimilating data:

Use professional online data analysis tools to streamline the process.
Use metadata for context
Assign codes or labels to facilitate grouping or comparison
Convert data into different formats or scales for compatibility
Organize documents in both the study participant and investigator's study regulatory files, creating a central repository for easy access and reference, as this organization is a pivotal step in the research process.

By adhering to these guidelines and upholding a commitment to ethical and rigorous research practices, you'll be well-equipped to conduct your research effectively and contribute meaningful insights to your field of study, thereby enhancing the integrity of the research process steps.

Step 6: Analyze and Interpret Data

Embarking on the research process steps, once you have gathered your research data, the subsequent critical phase is to delve into analysis and interpretation. This stage demands a meticulous examination of the data, spotting trends, and forging insightful conclusions that directly respond to your research question. Reflect on these tactics for a robust approach to data analysis and interpretation:

Organize and Clean Your Data

A pivotal aspect of the research process steps is to start by structuring your data in an orderly and coherent fashion. This organizational task may encompass:

Creating a spreadsheet or database to store your data
Assigning codes or labels to facilitate grouping or comparison
Cleaning the data by removing any errors, inconsistencies, or missing values
Converting data into different formats or scales for compatibility
Calculating measures of central tendency (mean, median, mode)
Determining measures of variability (range, standard deviation)
Creating frequency tables or histograms to visualize the distribution of your data
Identifying any outliers or unusual patterns in your data
Perform Inferential Analysis

Integral to the research process steps, you might engage in inferential analysis to evaluate hypotheses or extrapolate findings to a broader demographic, contingent on your research design and query. This analytical step may include:

Selecting appropriate statistical tests (e.g., t-tests, ANOVA, regression analysis)
As part of the research process steps, establishing a significance threshold (e.g., p < 0.05) is essential to gauge the likelihood of your results being a random occurrence rather than a significant finding.
Interpreting the results of your statistical tests in the context of your research question
Considering the practical significance of your findings, in addition to statistical significance

When interpreting your data, it's essential to:

Look for relationships, patterns, and trends in your data
Consider alternative explanations for your findings
Acknowledge any limitations or potential biases in your research design or data collection
Leverage data visualization techniques such as graphs, charts, and infographics to articulate your research findings with clarity and impact, thereby enhancing the communicative value of your data.
Seek feedback from peers, mentors, or subject matter experts to validate your interpretations

It's important to recognize that data interpretation is a cyclical process that hinges on critical thinking, inventiveness, and the readiness to refine your conclusions with emerging insights. By tackling data analysis and interpretation with diligence and openness, you're setting the stage to derive meaningful and justifiable inferences from your research, in line with the research process steps.

Step 7: Present the Findings

After meticulous analysis and interpretation of your research findings, as dictated by the research process steps, the moment arrives to disseminate your insights. Effectively presenting your research is key to captivating your audience and conveying the importance of your findings. Employ these strategies to create an engaging and persuasive presentation:

Organize Your Findings :

Use the PEEL method to structure your presentation:

Point: Clearly state your main argument or finding
Evidence: Present the data and analysis that support your point
Explanation: Provide context and interpret the significance of your evidence
Link: Connect your findings to the broader research question or field
Tailor Your Message

Understanding your audience is crucial to effective communication. When presenting your research, it's important to tailor your message to their background, interests, and level of expertise, effectively employing user personas to guide your approach.

Use clear, concise language and explain technical terms
Highlight what makes your research unique and impactful
Craft a compelling narrative with a clear structure and hook
Share the big picture, emphasizing the significance of your findings
Engage Your Audience : Make your presentation enjoyable and memorable by incorporating creative elements:
Use visual aids, such as tables, charts, and graphs, to communicate your findings effectively
To vividly convey your research journey, consider employing storytelling techniques, such as UX comics or storyboards, which can make complex information more accessible and engaging.
Injecting humor and personality into your presentation can be a powerful tool for communication. Utilize funny messages or GIFs to lighten the mood, breaking up tension and refocusing attention, thereby enhancing the effectiveness of humor in communication.

By adhering to these strategies, you'll be well-prepared to present your research findings in a manner that's both clear and captivating. Ensure you follow research process steps such as citing your sources accurately and discussing the broader implications of your work, providing actionable recommendations, and delineating the subsequent phases for integrating your findings into broader practice or policy frameworks.

The research process is an intricate journey that demands meticulous planning, steadfast execution, and incisive analysis. By adhering to the fundamental research process steps outlined in this guide, from pinpointing your topic to showcasing your findings, you're setting yourself up for conducting research that's both effective and influential. Keep in mind that the research journey is iterative, often necessitating revisits to certain stages as fresh insights surface or unforeseen challenges emerge.

As you commence your research journey, seize the chance to contribute novel insights to your field and forge a positive global impact. By tackling your research with curiosity, integrity, and a dedication to excellence, you're paving the way towards attaining your research aspirations and making a substantial difference with your work, all while following the critical research process steps.

Sign up for more like this.

Home » Research Process – Steps, Examples and Tips

Research Process – Steps, Examples and Tips

Table of Contents

Research Process

Definition:

Research Process is a systematic and structured approach that involves the collection, analysis, and interpretation of data or information to answer a specific research question or solve a particular problem.

Research Process Steps

Research Process Steps are as follows:

Identify the Research Question or Problem

This is the first step in the research process. It involves identifying a problem or question that needs to be addressed. The research question should be specific, relevant, and focused on a particular area of interest.

Conduct a Literature Review

Once the research question has been identified, the next step is to conduct a literature review. This involves reviewing existing research and literature on the topic to identify any gaps in knowledge or areas where further research is needed. A literature review helps to provide a theoretical framework for the research and also ensures that the research is not duplicating previous work.

Formulate a Hypothesis or Research Objectives

Based on the research question and literature review, the researcher can formulate a hypothesis or research objectives. A hypothesis is a statement that can be tested to determine its validity, while research objectives are specific goals that the researcher aims to achieve through the research.

Design a Research Plan and Methodology

This step involves designing a research plan and methodology that will enable the researcher to collect and analyze data to test the hypothesis or achieve the research objectives. The research plan should include details on the sample size, data collection methods, and data analysis techniques that will be used.

Collect and Analyze Data

This step involves collecting and analyzing data according to the research plan and methodology. Data can be collected through various methods, including surveys, interviews, observations, or experiments. The data analysis process involves cleaning and organizing the data, applying statistical and analytical techniques to the data, and interpreting the results.

Interpret the Findings and Draw Conclusions

After analyzing the data, the researcher must interpret the findings and draw conclusions. This involves assessing the validity and reliability of the results and determining whether the hypothesis was supported or not. The researcher must also consider any limitations of the research and discuss the implications of the findings.

Communicate the Results

Finally, the researcher must communicate the results of the research through a research report, presentation, or publication. The research report should provide a detailed account of the research process, including the research question, literature review, research methodology, data analysis, findings, and conclusions. The report should also include recommendations for further research in the area.

Review and Revise

The research process is an iterative one, and it is important to review and revise the research plan and methodology as necessary. Researchers should assess the quality of their data and methods, reflect on their findings, and consider areas for improvement.

Ethical Considerations

Throughout the research process, ethical considerations must be taken into account. This includes ensuring that the research design protects the welfare of research participants, obtaining informed consent, maintaining confidentiality and privacy, and avoiding any potential harm to participants or their communities.

Dissemination and Application

The final step in the research process is to disseminate the findings and apply the research to real-world settings. Researchers can share their findings through academic publications, presentations at conferences, or media coverage. The research can be used to inform policy decisions, develop interventions, or improve practice in the relevant field.

Research Process Example

Following is a Research Process Example:

Research Question : What are the effects of a plant-based diet on athletic performance in high school athletes?

Step 1: Background Research Conduct a literature review to gain a better understanding of the existing research on the topic. Read academic articles and research studies related to plant-based diets, athletic performance, and high school athletes.

Step 2: Develop a Hypothesis Based on the literature review, develop a hypothesis that a plant-based diet positively affects athletic performance in high school athletes.

Step 3: Design the Study Design a study to test the hypothesis. Decide on the study population, sample size, and research methods. For this study, you could use a survey to collect data on dietary habits and athletic performance from a sample of high school athletes who follow a plant-based diet and a sample of high school athletes who do not follow a plant-based diet.

Step 4: Collect Data Distribute the survey to the selected sample and collect data on dietary habits and athletic performance.

Step 5: Analyze Data Use statistical analysis to compare the data from the two samples and determine if there is a significant difference in athletic performance between those who follow a plant-based diet and those who do not.

Step 6 : Interpret Results Interpret the results of the analysis in the context of the research question and hypothesis. Discuss any limitations or potential biases in the study design.

Step 7: Draw Conclusions Based on the results, draw conclusions about whether a plant-based diet has a significant effect on athletic performance in high school athletes. If the hypothesis is supported by the data, discuss potential implications and future research directions.

Step 8: Communicate Findings Communicate the findings of the study in a clear and concise manner. Use appropriate language, visuals, and formats to ensure that the findings are understood and valued.

Applications of Research Process

The research process has numerous applications across a wide range of fields and industries. Some examples of applications of the research process include:

Scientific research: The research process is widely used in scientific research to investigate phenomena in the natural world and develop new theories or technologies. This includes fields such as biology, chemistry, physics, and environmental science.
Social sciences : The research process is commonly used in social sciences to study human behavior, social structures, and institutions. This includes fields such as sociology, psychology, anthropology, and economics.
Education: The research process is used in education to study learning processes, curriculum design, and teaching methodologies. This includes research on student achievement, teacher effectiveness, and educational policy.
Healthcare: The research process is used in healthcare to investigate medical conditions, develop new treatments, and evaluate healthcare interventions. This includes fields such as medicine, nursing, and public health.
Business and industry : The research process is used in business and industry to study consumer behavior, market trends, and develop new products or services. This includes market research, product development, and customer satisfaction research.
Government and policy : The research process is used in government and policy to evaluate the effectiveness of policies and programs, and to inform policy decisions. This includes research on social welfare, crime prevention, and environmental policy.

Purpose of Research Process

The purpose of the research process is to systematically and scientifically investigate a problem or question in order to generate new knowledge or solve a problem. The research process enables researchers to:

Identify gaps in existing knowledge: By conducting a thorough literature review, researchers can identify gaps in existing knowledge and develop research questions that address these gaps.
Collect and analyze data : The research process provides a structured approach to collecting and analyzing data. Researchers can use a variety of research methods, including surveys, experiments, and interviews, to collect data that is valid and reliable.
Test hypotheses : The research process allows researchers to test hypotheses and make evidence-based conclusions. Through the systematic analysis of data, researchers can draw conclusions about the relationships between variables and develop new theories or models.
Solve problems: The research process can be used to solve practical problems and improve real-world outcomes. For example, researchers can develop interventions to address health or social problems, evaluate the effectiveness of policies or programs, and improve organizational processes.
Generate new knowledge : The research process is a key way to generate new knowledge and advance understanding in a given field. By conducting rigorous and well-designed research, researchers can make significant contributions to their field and help to shape future research.

Tips for Research Process

Here are some tips for the research process:

Start with a clear research question : A well-defined research question is the foundation of a successful research project. It should be specific, relevant, and achievable within the given time frame and resources.
Conduct a thorough literature review: A comprehensive literature review will help you to identify gaps in existing knowledge, build on previous research, and avoid duplication. It will also provide a theoretical framework for your research.
Choose appropriate research methods: Select research methods that are appropriate for your research question, objectives, and sample size. Ensure that your methods are valid, reliable, and ethical.
Be organized and systematic: Keep detailed notes throughout the research process, including your research plan, methodology, data collection, and analysis. This will help you to stay organized and ensure that you don’t miss any important details.
Analyze data rigorously: Use appropriate statistical and analytical techniques to analyze your data. Ensure that your analysis is valid, reliable, and transparent.
I nterpret results carefully : Interpret your results in the context of your research question and objectives. Consider any limitations or potential biases in your research design, and be cautious in drawing conclusions.
Communicate effectively: Communicate your research findings clearly and effectively to your target audience. Use appropriate language, visuals, and formats to ensure that your findings are understood and valued.
Collaborate and seek feedback : Collaborate with other researchers, experts, or stakeholders in your field. Seek feedback on your research design, methods, and findings to ensure that they are relevant, meaningful, and impactful.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

Data Collection – Methods Types and Examples

Delimitations in Research – Types, Examples and...

Research Design – Types, Methods and Examples

Institutional Review Board – Application Sample...

Evaluating Research – Process, Examples and...

Research Questions – Types, Examples and Writing...

Skip to main content
Skip to primary sidebar
Skip to footer
QuestionPro

Solutions Industries Gaming Automotive Sports and events Education Government Travel & Hospitality Financial Services Healthcare Cannabis Technology Use Case NPS+ Communities Audience Contactless surveys Mobile LivePolls Member Experience GDPR Positive People Science 360 Feedback Surveys
Resources Blog eBooks Survey Templates Case Studies Training Help center

Home Market Research Research Tools and Apps

Research Process Steps: What they are + How To Follow

There are various approaches to conducting basic and applied research. This article explains the research process steps you should know. Whether you are doing basic research or applied research, there are many ways of doing it. In some ways, each research study is unique since it is conducted at a different time and place.

Conducting research might be difficult, but there are clear processes to follow. The research process starts with a broad idea for a topic. This article will assist you through the research process steps, helping you focus and develop your topic.

Research Process Steps

The research process consists of a series of systematic procedures that a researcher must go through in order to generate knowledge that will be considered valuable by the project and focus on the relevant topic.

To conduct effective research, you must understand the research process steps and follow them. Here are a few steps in the research process to make it easier for you:

Step 1: Identify the Problem

Finding an issue or formulating a research question is the first step. A well-defined research problem will guide the researcher through all stages of the research process, from setting objectives to choosing a technique. There are a number of approaches to get insight into a topic and gain a better understanding of it. Such as:

A preliminary survey
Case studies
Interviews with a small group of people
Observational survey

Step 2: Evaluate the Literature

A thorough examination of the relevant studies is essential to the research process . It enables the researcher to identify the precise aspects of the problem. Once a problem has been found, the investigator or researcher needs to find out more about it.

This stage gives problem-zone background. It teaches the investigator about previous research, how they were conducted, and its conclusions. The researcher can build consistency between his work and others through a literature review. Such a review exposes the researcher to a more significant body of knowledge and helps him follow the research process efficiently.

Step 3: Create Hypotheses

Formulating an original hypothesis is the next logical step after narrowing down the research topic and defining it. A belief solves logical relationships between variables. In order to establish a hypothesis, a researcher must have a certain amount of expertise in the field.

It is important for researchers to keep in mind while formulating a hypothesis that it must be based on the research topic. Researchers are able to concentrate their efforts and stay committed to their objectives when they develop theories to guide their work.

Step 4: The Research Design

Research design is the plan for achieving objectives and answering research questions. It outlines how to get the relevant information. Its goal is to design research to test hypotheses, address the research questions, and provide decision-making insights.

The research design aims to minimize the time, money, and effort required to acquire meaningful evidence. This plan fits into four categories:

Exploration and Surveys
Data Analysis
Observation

Step 5: Describe Population

Research projects usually look at a specific group of people, facilities, or how technology is used in the business. In research, the term population refers to this study group. The research topic and purpose help determine the study group.

Suppose a researcher wishes to investigate a certain group of people in the community. In that case, the research could target a specific age group, males or females, a geographic location, or an ethnic group. A final step in a study’s design is to specify its sample or population so that the results may be generalized.

Step 6: Data Collection

Data collection is important in obtaining the knowledge or information required to answer the research issue. Every research collected data, either from the literature or the people being studied. Data must be collected from the two categories of researchers. These sources may provide primary data.

Questionnaire

Secondary data categories are:

Literature survey
Official, unofficial reports
An approach based on library resources

Step 7: Data Analysis

During research design, the researcher plans data analysis. After collecting data, the researcher analyzes it. The data is examined based on the approach in this step. The research findings are reviewed and reported.

Data analysis involves a number of closely related stages, such as setting up categories, applying these categories to raw data through coding and tabulation, and then drawing statistical conclusions. The researcher can examine the acquired data using a variety of statistical methods.

Step 8: The Report-writing

After completing these steps, the researcher must prepare a report detailing his findings. The report must be carefully composed with the following in mind:

The Layout: On the first page, the title, date, acknowledgments, and preface should be on the report. A table of contents should be followed by a list of tables, graphs, and charts if any.
Introduction: It should state the research’s purpose and methods. This section should include the study’s scope and limits.
Summary of Findings: A non-technical summary of findings and recommendations will follow the introduction. The findings should be summarized if they’re lengthy.
Principal Report: The main body of the report should make sense and be broken up into sections that are easy to understand.
Conclusion: The researcher should restate his findings at the end of the main text. It’s the final result.

LEARN ABOUT: 12 Best Tools for Researchers

The research process involves several steps that make it easy to complete the research successfully. The steps in the research process described above depend on each other, and the order must be kept. So, if we want to do a research project, we should follow the research process steps.

QuestionPro’s enterprise-grade research platform can collect survey and qualitative observation data. The tool’s nature allows for data processing and essential decisions. The platform lets you store and process data. Start immediately!

LEARN MORE FREE TRIAL

MORE LIKE THIS

Trend Report: Guide for Market Dynamics & Strategic Analysis

May 29, 2024

Cannabis Industry Business Intelligence: Impact on Research

May 28, 2024

Top 10 Dynata Alternatives & Competitors

May 27, 2024

the last step in the research paper process is

What Are My Employees Really Thinking? The Power of Open-ended Survey Analysis

May 24, 2024

Research Guides

6 Stages of Research

1: Task Definition
2: Information Seeking
3: Location & Access
4: Use of Information
5: Synthesis
6: Evaluation

Ask a Librarian

Browse our FAQ, Chat Live with a Librarian, Call, Text, Email, or Make an Appointment.

We are here to help!

Ask the Right Questions

The scope of an investigation determines how large or small your investigation will be. Determining the scope of an investigation is the critical first step in the research process because you will know how far and how deep to look for answers. This lesson will teach you how to develop a research question as a way to determine the scope of an investigation.

Click the image to open the tutorial in a new window.

Keyword(s): 5W Criteria, Ask the Right Questions, Guided Inquiry, Information Literacy, Library, New Literacies Alliance, Research as Inquiry, Research Question

Purpose of this guide

The purpose of this guide is to walk you through the 6 stages of writing an effective research paper. By breaking the process down into these 6 stages, your paper will be better and you will get more out of the research experience.

The 6 stages are:

Task Definition (developing a topic)
Information Seeking (coming up with a research plan)
Location & Access (finding good sources)
Use of Information (Reading, taking notes, and generally making the writing process easier)
Synthesis (coming up with your own ideas and presenting them well)
Evaluation (reflection)

This research guide is based on the Big6 Information Literacy model from https://thebig6.org/

Task Definition

The purpose of task definition is to help you develop an effective topic for your paper. .

Developing a topic is often one of the hardest and most important steps in writing a paper or doing a research project. But here are some tips:

A research topic is a question, not a statement. You shouldn't already know the answer when you start researching.
Research something you actually care about or find interesting. It turns the research process from a chore into something enjoyable and whoever reads your work can tell the difference.
Read the assignment before and after you think you have come up with your topic to make sure you are answering the prompt.

Steps to Developing a Topic

Assignment Requirements
General Idea
Background Research
Ask Questions
Topic Question

Read your assignment and note any requirements.

Is there a required page length?
How many sources do you need?
Does the paper have to be in a specific format like APA?
Are there any listed goals for the topic, such as synthesizing different opinions, or applying a theory to a real-life example?

Formulate a general idea.

Look at your syllabus or course schedule for broad topic ideas.
Think about reading assignments or class lectures that you found interesting.
Talk with your professor or a librarian.
Check out social media and see what has been trending that is related to your course.
Think about ideas from popular videos, TV shows, and movies.
Read The New York Times (FHSU students have free access through the Library)
Watch NBC Learn (FHSU students have free access through the Library)
Search your library for relevant journals and publications related to your course and browse them for ideas
Browse online discussion forums, news, and blogs for professional organizations for hot topics

Do some background research on your general idea.

You have access to reference materials through the Library for background research.
See what your course notes and textbook say about the subject.
Google it.

Reference e-books on a wide range of topics. Sources include dictionaries, encyclopedias, key concepts, key thinkers, handbooks, atlases, and more. Search by keyword or browse titles by topic.

Over 1200 cross-searchable reference e-books on a wide variety of subjects.

Mind map it.

A mind map is an effective way of organizing your thoughts and generating new questions as you learn about your topic.

Video on how to do a mind map.
Coggle Free mind mapping software that is great for beginners and easy to use.
MindMup Mindmup is a free, easy to use online software that allows you to publish and share your mind maps with others.

Ask Questions to focus on what interests you.

Who? What? When? Where? Why?

We can focus our ideas by brainstorming what interests us when asking who, what, when where, and why:

anonymous by Gregor Cresnar from the Noun Project

Research Question: Does flexible seating in an elementary classroom improve student focus?

Write out your topic question & reread the assignment criteria.

Can you answer your question well in the number of pages required?
Does your topic still meet the requirements of the paper? Ex: is the question still about the sociology of gender studies and women?
Is the topic too narrow to find research?

Developing a Topic Tutorial

The following tutorial from Forsyth Library will walk you through the process of defining your topic.

Next: 2: Information Seeking >>
Last Updated: May 15, 2024 2:43 PM
URL: https://fhsuguides.fhsu.edu/6stages

school Campus Bookshelves
menu_book Bookshelves
perm_media Learning Objects
login Login
how_to_reg Request Instructor Account
hub Instructor Commons

Margin Size

Download Page (PDF)
Download Full Book (PDF)
Periodic Table
Physics Constants
Scientific Calculator
Reference & Cite
Tools expand_more
Readability

selected template will load here

This action is not available.

3.2: Overview of the Research Process

Last updated
Save as PDF
Page ID 26219

Anol Bhattacherjee
University of South Florida via Global Text Project

\( \newcommand{\vecs}[1]{\overset { \scriptstyle \rightharpoonup} {\mathbf{#1}} } \)

\( \newcommand{\vecd}[1]{\overset{-\!-\!\rightharpoonup}{\vphantom{a}\smash {#1}}} \)

\( \newcommand{\id}{\mathrm{id}}\) \( \newcommand{\Span}{\mathrm{span}}\)

( \newcommand{\kernel}{\mathrm{null}\,}\) \( \newcommand{\range}{\mathrm{range}\,}\)

\( \newcommand{\RealPart}{\mathrm{Re}}\) \( \newcommand{\ImaginaryPart}{\mathrm{Im}}\)

\( \newcommand{\Argument}{\mathrm{Arg}}\) \( \newcommand{\norm}[1]{\| #1 \|}\)

\( \newcommand{\inner}[2]{\langle #1, #2 \rangle}\)

\( \newcommand{\Span}{\mathrm{span}}\)

\( \newcommand{\id}{\mathrm{id}}\)

\( \newcommand{\kernel}{\mathrm{null}\,}\)

\( \newcommand{\range}{\mathrm{range}\,}\)

\( \newcommand{\RealPart}{\mathrm{Re}}\)

\( \newcommand{\ImaginaryPart}{\mathrm{Im}}\)

\( \newcommand{\Argument}{\mathrm{Arg}}\)

\( \newcommand{\norm}[1]{\| #1 \|}\)

\( \newcommand{\Span}{\mathrm{span}}\) \( \newcommand{\AA}{\unicode[.8,0]{x212B}}\)

\( \newcommand{\vectorA}[1]{\vec{#1}} % arrow\)

\( \newcommand{\vectorAt}[1]{\vec{\text{#1}}} % arrow\)

\( \newcommand{\vectorB}[1]{\overset { \scriptstyle \rightharpoonup} {\mathbf{#1}} } \)

\( \newcommand{\vectorC}[1]{\textbf{#1}} \)

\( \newcommand{\vectorD}[1]{\overrightarrow{#1}} \)

\( \newcommand{\vectorDt}[1]{\overrightarrow{\text{#1}}} \)

\( \newcommand{\vectE}[1]{\overset{-\!-\!\rightharpoonup}{\vphantom{a}\smash{\mathbf {#1}}}} \)

So how do our mental paradigms shape social science research? At its core, all scientific research is an iterative process of observation, rationalization, and validation. In the observation phase, we observe a natural or social phenomenon, event, or behavior that interests us. In the rationalization phase, we try to make sense of or the observed phenomenon, event, or behavior by logically connecting the different pieces of the puzzle that we observe, which in some cases, may lead to the construction of a theory. Finally, in the validation phase, we test our theories using a scientific method through a process of data collection and analysis, and in doing so, possibly modify or extend our initial theory. However, research designs vary based on whether the researcher starts at observation and attempts to rationalize the observations (inductive research), or whether the researcher starts at an ex ante rationalization or a theory and attempts to validate the theory (deductive research). Hence, the observation-rationalization-validation cycle is very similar to the induction-deduction cycle of research discussed in Chapter 1.

Most traditional research tends to be deductive and functionalistic in nature. Figure 3.2 provides a schematic view of such a research project. This figure depicts a series of activities to be performed in functionalist research, categorized into three phases: exploration, research design, and research execution. Note that this generalized design is not a roadmap or flowchart for all research. It applies only to functionalistic research, and it can and should be modified to fit the needs of a specific project.

The first phase of research is exploration . This phase includes exploring and selecting research questions for further investigation, examining the published literature in the area of inquiry to understand the current state of knowledge in that area, and identifying theories that may help answer the research questions of interest.

The first step in the exploration phase is identifying one or more research questions dealing with a specific behavior, event, or phenomena of interest. Research questions are specific questions about a behavior, event, or phenomena of interest that you wish to seek answers for in your research. Examples include what factors motivate consumers to purchase goods and services online without knowing the vendors of these goods or services, how can we make high school students more creative, and why do some people commit terrorist acts. Research questions can delve into issues of what, why, how, when, and so forth. More interesting research questions are those that appeal to a broader population (e.g., “how can firms innovate” is a more interesting research question than “how can Chinese firms innovate in the service-sector”), address real and complex problems (in contrast to hypothetical or “toy” problems), and where the answers are not obvious. Narrowly focused research questions (often with a binary yes/no answer) tend to be less useful and less interesting and less suited to capturing the subtle nuances of social phenomena. Uninteresting research questions generally lead to uninteresting and unpublishable research findings.

The next step is to conduct a literature review of the domain of interest. The purpose of a literature review is three-fold: (1) to survey the current state of knowledge in the area of inquiry, (2) to identify key authors, articles, theories, and findings in that area, and (3) to identify gaps in knowledge in that research area. Literature review is commonly done today using computerized keyword searches in online databases. Keywords can be combined using “and” and “or” operations to narrow down or expand the search results. Once a shortlist of relevant articles is generated from the keyword search, the researcher must then manually browse through each article, or at least its abstract section, to determine the suitability of that article for a detailed review. Literature reviews should be reasonably complete, and not restricted to a few journals, a few years, or a specific methodology. Reviewed articles may be summarized in the form of tables, and can be further structured using organizing frameworks such as a concept matrix. A well-conducted literature review should indicate whether the initial research questions have already been addressed in the literature (which would obviate the need to study them again), whether there are newer or more interesting research questions available, and whether the original research questions should be modified or changed in light of findings of the literature review. The review can also provide some intuitions or potential answers to the questions of interest and/or help identify theories that have previously been used to address similar questions.

Since functionalist (deductive) research involves theory-testing, the third step is to identify one or more theories can help address the desired research questions. While the literature review may uncover a wide range of concepts or constructs potentially related to the phenomenon of interest, a theory will help identify which of these constructs is logically relevant to the target phenomenon and how. Forgoing theories may result in measuring a wide range of less relevant, marginally relevant, or irrelevant constructs, while also minimizing the chances of obtaining results that are meaningful and not by pure chance. In functionalist research, theories can be used as the logical basis for postulating hypotheses for empirical testing. Obviously, not all theories are well-suited for studying all social phenomena. Theories must be carefully selected based on their fit with the target problem and the extent to which their assumptions are consistent with that of the target problem. We will examine theories and the process of theorizing in detail in the next chapter.

The next phase in the research process is research design . This process is concerned with creating a blueprint of the activities to take in order to satisfactorily answer the research questions identified in the exploration phase. This includes selecting a research method, operationalizing constructs of interest, and devising an appropriate sampling strategy.

Operationalization is the process of designing precise measures for abstract theoretical constructs. This is a major problem in social science research, given that many of the constructs, such as prejudice, alienation, and liberalism are hard to define, let alone measure accurately. Operationalization starts with specifying an “operational definition” (or “conceptualization”) of the constructs of interest. Next, the researcher can search the literature to see if there are existing prevalidated measures matching their operational definition that can be used directly or modified to measure their constructs of interest. If such measures are not available or if existing measures are poor or reflect a different conceptualization than that intended by the researcher, new instruments may have to be designed for measuring those constructs. This means specifying exactly how exactly the desired construct will be measured (e.g., how many items, what items, and so forth). This can easily be a long and laborious process, with multiple rounds of pretests and modifications before the newly designed instrument can be accepted as “scientifically valid.” We will discuss operationalization of constructs in a future chapter on measurement.

Simultaneously with operationalization, the researcher must also decide what research method they wish to employ for collecting data to address their research questions of interest. Such methods may include quantitative methods such as experiments or survey research or qualitative methods such as case research or action research, or possibly a combination of both. If an experiment is desired, then what is the experimental design? If survey, do you plan a mail survey, telephone survey, web survey, or a combination? For complex, uncertain, and multifaceted social phenomena, multi-method approaches may be more suitable, which may help leverage the unique strengths of each research method and generate insights that may not be obtained using a single method.

Researchers must also carefully choose the target population from which they wish to collect data, and a sampling strategy to select a sample from that population. For instance, should they survey individuals or firms or workgroups within firms? What types of individuals or firms they wish to target? Sampling strategy is closely related to the unit of analysis in a research problem. While selecting a sample, reasonable care should be taken to avoid a biased sample (e.g., sample based on convenience) that may generate biased observations. Sampling is covered in depth in a later chapter.

At this stage, it is often a good idea to write a research proposal detailing all of the decisions made in the preceding stages of the research process and the rationale behind each decision. This multi-part proposal should address what research questions you wish to study and why, the prior state of knowledge in this area, theories you wish to employ along with hypotheses to be tested, how to measure constructs, what research method to be employed and why, and desired sampling strategy. Funding agencies typically require such a proposal in order to select the best proposals for funding. Even if funding is not sought for a research project, a proposal may serve as a useful vehicle for seeking feedback from other researchers and identifying potential problems with the research project (e.g., whether some important constructs were missing from the study) before starting data collection. This initial feedback is invaluable because it is often too late to correct critical problems after data is collected in a research study.

Having decided who to study (subjects), what to measure (concepts), and how to collect data (research method), the researcher is now ready to proceed to the research execution phase. This includes pilot testing the measurement instruments, data collection, and data analysis.

Pilot testing is an often overlooked but extremely important part of the research process. It helps detect potential problems in your research design and/or instrumentation (e.g., whether the questions asked is intelligible to the targeted sample), and to ensure that the measurement instruments used in the study are reliable and valid measures of the constructs of interest. The pilot sample is usually a small subset of the target population. After a successful pilot testing, the researcher may then proceed with data collection using the sampled population. The data collected may be quantitative or qualitative, depending on the research method employed.

Following data collection, the data is analyzed and interpreted for the purpose of drawing conclusions regarding the research questions of interest. Depending on the type of data collected (quantitative or qualitative), data analysis may be quantitative (e.g., employ statistical techniques such as regression or structural equation modeling) or qualitative (e.g., coding or content analysis).

The final phase of research involves preparing the final research report documenting the entire research process and its findings in the form of a research paper, dissertation, or monograph. This report should outline in detail all the choices made during the research process (e.g., theory used, constructs selected, measures used, research methods, sampling, etc.) and why, as well as the outcomes of each phase of the research process. The research process must be described in sufficient detail so as to allow other researchers to replicate your study, test the findings, or assess whether the inferences derived are scientifically acceptable. Of course, having a ready research proposal will greatly simplify and quicken the process of writing the finished report. Note that research is of no value unless the research process and outcomes are documented for future generations; such documentation is essential for the incremental progress of science.

Want to create or adapt books like this? Learn more about how Pressbooks supports open publishing practices.

3 The research process

In Chapter 1, we saw that scientific research is the process of acquiring scientific knowledge using the scientific method. But how is such research conducted? This chapter delves into the process of scientific research, and the assumptions and outcomes of the research process.

Paradigms of social research

Our design and conduct of research is shaped by our mental models, or frames of reference that we use to organise our reasoning and observations. These mental models or frames (belief systems) are called paradigms . The word ‘paradigm’ was popularised by Thomas Kuhn (1962) [1] in his book The structure of scientific r evolutions , where he examined the history of the natural sciences to identify patterns of activities that shape the progress of science. Similar ideas are applicable to social sciences as well, where a social reality can be viewed by different people in different ways, which may constrain their thinking and reasoning about the observed phenomenon. For instance, conservatives and liberals tend to have very different perceptions of the role of government in people’s lives, and hence, have different opinions on how to solve social problems. Conservatives may believe that lowering taxes is the best way to stimulate a stagnant economy because it increases people’s disposable income and spending, which in turn expands business output and employment. In contrast, liberals may believe that governments should invest more directly in job creation programs such as public works and infrastructure projects, which will increase employment and people’s ability to consume and drive the economy. Likewise, Western societies place greater emphasis on individual rights, such as one’s right to privacy, right of free speech, and right to bear arms. In contrast, Asian societies tend to balance the rights of individuals against the rights of families, organisations, and the government, and therefore tend to be more communal and less individualistic in their policies. Such differences in perspective often lead Westerners to criticise Asian governments for being autocratic, while Asians criticise Western societies for being greedy, having high crime rates, and creating a ‘cult of the individual’. Our personal paradigms are like ‘coloured glasses’ that govern how we view the world and how we structure our thoughts about what we see in the world.

Paradigms are often hard to recognise, because they are implicit, assumed, and taken for granted. However, recognising these paradigms is key to making sense of and reconciling differences in people’s perceptions of the same social phenomenon. For instance, why do liberals believe that the best way to improve secondary education is to hire more teachers, while conservatives believe that privatising education (using such means as school vouchers) is more effective in achieving the same goal? Conservatives place more faith in competitive markets (i.e., in free competition between schools competing for education dollars), while liberals believe more in labour (i.e., in having more teachers and schools). Likewise, in social science research, to understand why a certain technology was successfully implemented in one organisation, but failed miserably in another, a researcher looking at the world through a ‘rational lens’ will look for rational explanations of the problem, such as inadequate technology or poor fit between technology and the task context where it is being utilised. Another researcher looking at the same problem through a ‘social lens’ may seek out social deficiencies such as inadequate user training or lack of management support. Those seeing it through a ‘political lens’ will look for instances of organisational politics that may subvert the technology implementation process. Hence, subconscious paradigms often constrain the concepts that researchers attempt to measure, their observations, and their subsequent interpretations of a phenomenon. However, given the complex nature of social phenomena, it is possible that all of the above paradigms are partially correct, and that a fuller understanding of the problem may require an understanding and application of multiple paradigms.

Two popular paradigms today among social science researchers are positivism and post-positivism. Positivism , based on the works of French philosopher Auguste Comte (1798–1857), was the dominant scientific paradigm until the mid-twentieth century. It holds that science or knowledge creation should be restricted to what can be observed and measured. Positivism tends to rely exclusively on theories that can be directly tested. Though positivism was originally an attempt to separate scientific inquiry from religion (where the precepts could not be objectively observed), positivism led to empiricism or a blind faith in observed data and a rejection of any attempt to extend or reason beyond observable facts. Since human thoughts and emotions could not be directly measured, they were not considered to be legitimate topics for scientific research. Frustrations with the strictly empirical nature of positivist philosophy led to the development of post-positivism (or postmodernism) during the mid-late twentieth century. Post-positivism argues that one can make reasonable inferences about a phenomenon by combining empirical observations with logical reasoning. Post-positivists view science as not certain but probabilistic (i.e., based on many contingencies), and often seek to explore these contingencies to understand social reality better. The post-positivist camp has further fragmented into subjectivists , who view the world as a subjective construction of our subjective minds rather than as an objective reality, and critical realists , who believe that there is an external reality that is independent of a person’s thinking but we can never know such reality with any degree of certainty.

Burrell and Morgan (1979), [2] in their seminal book Sociological p aradigms and organizational a nalysis , suggested that the way social science researchers view and study social phenomena is shaped by two fundamental sets of philosophical assumptions: ontology and epistemology. Ontology refers to our assumptions about how we see the world (e.g., does the world consist mostly of social order or constant change?). Epistemology refers to our assumptions about the best way to study the world (e.g., should we use an objective or subjective approach to study social reality?). Using these two sets of assumptions, we can categorise social science research as belonging to one of four categories (see Figure 3.1).

If researchers view the world as consisting mostly of social order (ontology) and hence seek to study patterns of ordered events or behaviours, and believe that the best way to study such a world is using an objective approach (epistemology) that is independent of the person conducting the observation or interpretation, such as by using standardised data collection tools like surveys, then they are adopting a paradigm of functionalism . However, if they believe that the best way to study social order is though the subjective interpretation of participants, such as by interviewing different participants and reconciling differences among their responses using their own subjective perspectives, then they are employing an interpretivism paradigm. If researchers believe that the world consists of radical change and seek to understand or enact change using an objectivist approach, then they are employing a radical structuralism paradigm. If they wish to understand social change using the subjective perspectives of the participants involved, then they are following a radical humanism paradigm.

Four paradigms of social science research

To date, the majority of social science research has emulated the natural sciences, and followed the functionalist paradigm. Functionalists believe that social order or patterns can be understood in terms of their functional components, and therefore attempt to break down a problem into small components and studying one or more components in detail using objectivist techniques such as surveys and experimental research. However, with the emergence of post-positivist thinking, a small but growing number of social science researchers are attempting to understand social order using subjectivist techniques such as interviews and ethnographic studies. Radical humanism and radical structuralism continues to represent a negligible proportion of social science research, because scientists are primarily concerned with understanding generalisable patterns of behaviour, events, or phenomena, rather than idiosyncratic or changing events. Nevertheless, if you wish to study social change, such as why democratic movements are increasingly emerging in Middle Eastern countries, or why this movement was successful in Tunisia, took a longer path to success in Libya, and is still not successful in Syria, then perhaps radical humanism is the right approach for such a study. Social and organisational phenomena generally consist of elements of both order and change. For instance, organisational success depends on formalised business processes, work procedures, and job responsibilities, while being simultaneously constrained by a constantly changing mix of competitors, competing products, suppliers, and customer base in the business environment. Hence, a holistic and more complete understanding of social phenomena such as why some organisations are more successful than others, requires an appreciation and application of a multi-paradigmatic approach to research.

Overview of the research process

So how do our mental paradigms shape social science research? At its core, all scientific research is an iterative process of observation, rationalisation, and validation. In the observation phase, we observe a natural or social phenomenon, event, or behaviour that interests us. In the rationalisation phase, we try to make sense of the observed phenomenon, event, or behaviour by logically connecting the different pieces of the puzzle that we observe, which in some cases, may lead to the construction of a theory. Finally, in the validation phase, we test our theories using a scientific method through a process of data collection and analysis, and in doing so, possibly modify or extend our initial theory. However, research designs vary based on whether the researcher starts at observation and attempts to rationalise the observations (inductive research), or whether the researcher starts at an ex ante rationalisation or a theory and attempts to validate the theory (deductive research). Hence, the observation-rationalisation-validation cycle is very similar to the induction-deduction cycle of research discussed in Chapter 1.

Most traditional research tends to be deductive and functionalistic in nature. Figure 3.2 provides a schematic view of such a research project. This figure depicts a series of activities to be performed in functionalist research, categorised into three phases: exploration, research design, and research execution. Note that this generalised design is not a roadmap or flowchart for all research. It applies only to functionalistic research, and it can and should be modified to fit the needs of a specific project.

The first step in the exploration phase is identifying one or more research questions dealing with a specific behaviour, event, or phenomena of interest. Research questions are specific questions about a behaviour, event, or phenomena of interest that you wish to seek answers for in your research. Examples include determining which factors motivate consumers to purchase goods and services online without knowing the vendors of these goods or services, how can we make high school students more creative, and why some people commit terrorist acts. Research questions can delve into issues of what, why, how, when, and so forth. More interesting research questions are those that appeal to a broader population (e.g., ‘how can firms innovate?’ is a more interesting research question than ‘how can Chinese firms innovate in the service-sector?’), address real and complex problems (in contrast to hypothetical or ‘toy’ problems), and where the answers are not obvious. Narrowly focused research questions (often with a binary yes/no answer) tend to be less useful and less interesting and less suited to capturing the subtle nuances of social phenomena. Uninteresting research questions generally lead to uninteresting and unpublishable research findings.

The next step is to conduct a literature review of the domain of interest. The purpose of a literature review is three-fold: one, to survey the current state of knowledge in the area of inquiry, two, to identify key authors, articles, theories, and findings in that area, and three, to identify gaps in knowledge in that research area. Literature review is commonly done today using computerised keyword searches in online databases. Keywords can be combined using Boolean operators such as ‘and’ and ‘or’ to narrow down or expand the search results. Once a shortlist of relevant articles is generated from the keyword search, the researcher must then manually browse through each article, or at least its abstract, to determine the suitability of that article for a detailed review. Literature reviews should be reasonably complete, and not restricted to a few journals, a few years, or a specific methodology. Reviewed articles may be summarised in the form of tables, and can be further structured using organising frameworks such as a concept matrix. A well-conducted literature review should indicate whether the initial research questions have already been addressed in the literature (which would obviate the need to study them again), whether there are newer or more interesting research questions available, and whether the original research questions should be modified or changed in light of the findings of the literature review. The review can also provide some intuitions or potential answers to the questions of interest and/or help identify theories that have previously been used to address similar questions.

Since functionalist (deductive) research involves theory-testing, the third step is to identify one or more theories can help address the desired research questions. While the literature review may uncover a wide range of concepts or constructs potentially related to the phenomenon of interest, a theory will help identify which of these constructs is logically relevant to the target phenomenon and how. Forgoing theories may result in measuring a wide range of less relevant, marginally relevant, or irrelevant constructs, while also minimising the chances of obtaining results that are meaningful and not by pure chance. In functionalist research, theories can be used as the logical basis for postulating hypotheses for empirical testing. Obviously, not all theories are well-suited for studying all social phenomena. Theories must be carefully selected based on their fit with the target problem and the extent to which their assumptions are consistent with that of the target problem. We will examine theories and the process of theorising in detail in the next chapter.

The next phase in the research process is research design . This process is concerned with creating a blueprint of the actions to take in order to satisfactorily answer the research questions identified in the exploration phase. This includes selecting a research method, operationalising constructs of interest, and devising an appropriate sampling strategy.

Operationalisation is the process of designing precise measures for abstract theoretical constructs. This is a major problem in social science research, given that many of the constructs, such as prejudice, alienation, and liberalism are hard to define, let alone measure accurately. Operationalisation starts with specifying an ‘operational definition’ (or ‘conceptualization’) of the constructs of interest. Next, the researcher can search the literature to see if there are existing pre-validated measures matching their operational definition that can be used directly or modified to measure their constructs of interest. If such measures are not available or if existing measures are poor or reflect a different conceptualisation than that intended by the researcher, new instruments may have to be designed for measuring those constructs. This means specifying exactly how exactly the desired construct will be measured (e.g., how many items, what items, and so forth). This can easily be a long and laborious process, with multiple rounds of pre-tests and modifications before the newly designed instrument can be accepted as ‘scientifically valid’. We will discuss operationalisation of constructs in a future chapter on measurement.

Simultaneously with operationalisation, the researcher must also decide what research method they wish to employ for collecting data to address their research questions of interest. Such methods may include quantitative methods such as experiments or survey research or qualitative methods such as case research or action research, or possibly a combination of both. If an experiment is desired, then what is the experimental design? If this is a survey, do you plan a mail survey, telephone survey, web survey, or a combination? For complex, uncertain, and multifaceted social phenomena, multi-method approaches may be more suitable, which may help leverage the unique strengths of each research method and generate insights that may not be obtained using a single method.

Researchers must also carefully choose the target population from which they wish to collect data, and a sampling strategy to select a sample from that population. For instance, should they survey individuals or firms or workgroups within firms? What types of individuals or firms do they wish to target? Sampling strategy is closely related to the unit of analysis in a research problem. While selecting a sample, reasonable care should be taken to avoid a biased sample (e.g., sample based on convenience) that may generate biased observations. Sampling is covered in depth in a later chapter.

At this stage, it is often a good idea to write a research proposal detailing all of the decisions made in the preceding stages of the research process and the rationale behind each decision. This multi-part proposal should address what research questions you wish to study and why, the prior state of knowledge in this area, theories you wish to employ along with hypotheses to be tested, how you intend to measure constructs, what research method is to be employed and why, and desired sampling strategy. Funding agencies typically require such a proposal in order to select the best proposals for funding. Even if funding is not sought for a research project, a proposal may serve as a useful vehicle for seeking feedback from other researchers and identifying potential problems with the research project (e.g., whether some important constructs were missing from the study) before starting data collection. This initial feedback is invaluable because it is often too late to correct critical problems after data is collected in a research study.

Pilot testing is an often overlooked but extremely important part of the research process. It helps detect potential problems in your research design and/or instrumentation (e.g., whether the questions asked are intelligible to the targeted sample), and to ensure that the measurement instruments used in the study are reliable and valid measures of the constructs of interest. The pilot sample is usually a small subset of the target population. After successful pilot testing, the researcher may then proceed with data collection using the sampled population. The data collected may be quantitative or qualitative, depending on the research method employed.

Following data collection, the data is analysed and interpreted for the purpose of drawing conclusions regarding the research questions of interest. Depending on the type of data collected (quantitative or qualitative), data analysis may be quantitative (e.g., employ statistical techniques such as regression or structural equation modelling) or qualitative (e.g., coding or content analysis).

The final phase of research involves preparing the final research report documenting the entire research process and its findings in the form of a research paper, dissertation, or monograph. This report should outline in detail all the choices made during the research process (e.g., theory used, constructs selected, measures used, research methods, sampling, etc.) and why, as well as the outcomes of each phase of the research process. The research process must be described in sufficient detail so as to allow other researchers to replicate your study, test the findings, or assess whether the inferences derived are scientifically acceptable. Of course, having a ready research proposal will greatly simplify and quicken the process of writing the finished report. Note that research is of no value unless the research process and outcomes are documented for future generations—such documentation is essential for the incremental progress of science.

Common mistakes in research

The research process is fraught with problems and pitfalls, and novice researchers often find, after investing substantial amounts of time and effort into a research project, that their research questions were not sufficiently answered, or that the findings were not interesting enough, or that the research was not of ‘acceptable’ scientific quality. Such problems typically result in research papers being rejected by journals. Some of the more frequent mistakes are described below.

Insufficiently motivated research questions. Often times, we choose our ‘pet’ problems that are interesting to us but not to the scientific community at large, i.e., it does not generate new knowledge or insight about the phenomenon being investigated. Because the research process involves a significant investment of time and effort on the researcher’s part, the researcher must be certain—and be able to convince others—that the research questions they seek to answer deal with real—and not hypothetical—problems that affect a substantial portion of a population and have not been adequately addressed in prior research.

Pursuing research fads. Another common mistake is pursuing ‘popular’ topics with limited shelf life. A typical example is studying technologies or practices that are popular today. Because research takes several years to complete and publish, it is possible that popular interest in these fads may die down by the time the research is completed and submitted for publication. A better strategy may be to study ‘timeless’ topics that have always persisted through the years.

Unresearchable problems. Some research problems may not be answered adequately based on observed evidence alone, or using currently accepted methods and procedures. Such problems are best avoided. However, some unresearchable, ambiguously defined problems may be modified or fine tuned into well-defined and useful researchable problems.

Favoured research methods. Many researchers have a tendency to recast a research problem so that it is amenable to their favourite research method (e.g., survey research). This is an unfortunate trend. Research methods should be chosen to best fit a research problem, and not the other way around.

Blind data mining. Some researchers have the tendency to collect data first (using instruments that are already available), and then figure out what to do with it. Note that data collection is only one step in a long and elaborate process of planning, designing, and executing research. In fact, a series of other activities are needed in a research process prior to data collection. If researchers jump into data collection without such elaborate planning, the data collected will likely be irrelevant, imperfect, or useless, and their data collection efforts may be entirely wasted. An abundance of data cannot make up for deficits in research planning and design, and particularly, for the lack of interesting research questions.

Kuhn, T. (1962). The structure of scientific revolutions . Chicago: University of Chicago Press. ↵
Burrell, G. & Morgan, G. (1979). Sociological paradigms and organisational analysis: elements of the sociology of corporate life . London: Heinemann Educational. ↵

Social Science Research: Principles, Methods and Practices (Revised edition) Copyright © 2019 by Anol Bhattacherjee is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License , except where otherwise noted.

Share This Book

Steps of Research: The 7 Steps of Research

The 7 Steps of Research
Step 1: Identifying a Topic
Step 2: Finding Background Information
Step 3: Finding Books
Step 4: Finding Articles
Step 5: Finding Internet Sources
Step 6: Evaluation of Information
Step 7: Citation
Searching Techniques

Before We Start

"Your research project is likely to be one of the things you remember best from your time as a student. Unlike most of your formal teaching, such as ‘systems’ modules, it will give you the opportunity to work with a considerable degree of independence. It will make demands on you that you never envisaged. At times, it will drive you crackers. At the end of it, however, if you have fully engaged with your project and given it your total commitment, you will emerge not only with a great dissertation but with a much enhanced understanding of how research ‘works’ and, I hope, a strong desire to do more. Make the most of it. Go for it, and enjoy!"

Source : Beardsmore, Caroline. How to Do Your Research Project : A Guide for Students in Medicine and The Health Sciences. Somerset, NJ, USA: John Wiley & Sons, 2013. ProQuest ebrary. Web. 5 September 2014.

Links to Other Guides

Legal and Moral Issues Related to Information by Nikolina Ivanova-Bell Last Updated Feb 12, 2024 3 views this year
Information Literacy by Nikolina Ivanova-Bell Last Updated Feb 12, 2024 501 views this year

About This Guide

This guide is dveleoped to help the students taking ENG1002 Writing Academic Research Papers course with their research process.

According to the Academic Catalog, students taking this course will have to be able to "critically assess sophisticated source materials and integrate outside sources into their own persuasive arguments."

This guide with help students both in finding, assessing and documenting these sources.

These skills are integral for the 21st century student (and citizen) for becoming information literate members of society - literacy of utmost importance for the Information Age.

Subject Guide

Next: Step 1: Identifying a Topic >>
Last Updated: Feb 12, 2024 11:16 AM
URL: https://aubg.libguides.com/7

× All floors of the JFK Library are open for summer quarter. For details see Library Access

Research Guides

Eastern Washington University Libraries

Seven Steps of the Research Process

The following seven steps outline a simple and effective strategy for finding information for a research paper and documenting the sources you find. Depending on your topic and your familiarity with the library, you may need to rearrange or recycle these steps. Adapt this outline to your needs.

Work from the general to the specific. Find background information first, then use more specific and recent sources.
Record what you find and where you found it. Record the complete citation for each source you find; you may need it again later.
Translate your topic into the subject language of the indexes and catalogs you use. Check your topic words against a thesaurus or subject heading list.

Need help clarifying your topic? Need ideas about where to look next? Want to be sure you're using a reference source effectively? Ask a Librarian

Step 1: Identify & Develop Your Topic (Prepare)

Summary: State your topic as a question. For example, if you are interested in finding out about use of alcoholic beverages by college students, you might pose the question, "What effect does use of alcoholic beverages have on the health of college students?" Identify the main concepts or keywords in your question.

Step 2: Find Background Information (Find)

Summary: Look up your keywords in the indexes to subject encyclopedias. Read articles in these encyclopedias to set the context for your research. Note any relevant items in the bibliographies at the end of the encyclopedia articles. Additional background information may be found in your lecture notes, textbooks, and reserve readings. See Background/Overviews for suggested resources.

Step 3: Find Internet Sources (Find)

Summary: Use Google to locate materials on the Web.These can be useful for background information and to focus your topic.

Step 4: Use the EWU Library Catalog to Find Books & Media (Find)

Summary: Use the EWU Library Catalog for keyword searching. Use subject searching for a broad subject. Print or write down the citation (author, title,etc.) and the location information (call number and library). Note the circulation status. When you pull the book from the shelf, scan the bibliography for additional sources. See Find Books for help on using the EWU Library Catalog.

Step 5: Use Databases to Find Articles (Find)

Summary: Use the library databases to find articles. Choose the databases that are best suited to your particular topic; ask at the reference desk if you need help figuring out which index and format will be best. See Articles for recommended databases and help searching EBSCOhost databases.

Step 6: Evaluate What You Find (Think & Reflect)

Summary: Use Evaluate Articles and Evaluate Websites for suggestions on evaluating the authority and quality of the sources you find. If you have found too many or too few sources, you may need to narrow or broaden your topic. Check with a reference librarian or your instructor.

Step 7: Cite What You Find Using a Standard Format (Cite)

Give credit where credit is due; cite your sources.

Citing or documenting the sources used in your research serves two purposes, it gives proper credit to the authors of the materials used, and it allows those who are reading your work to duplicate your research and locate the sources that you have listed as references.

Knowingly representing the work of others as your own is plagiarism. Use one of the styles listed below or another style approved by your instructor.

Available online:

Format the citations in your bibliography using examples from the following EWU sites: Modern Language Association (MLA) examples and American Psychological Association (APA) examples.

Style guides in print (book) format:

Modern Language Association. MLA Handbook for Writers of Research Papers . 7th ed. New York: MLA, 2009. Print.

This handbook is based on the MLA Style Manual and is intended as an aid for college students writing research papers. Included here is information on selecting a topic, researching the topic, note taking, the writing of footnotes and bibliographies, as well as sample pages of a research paper. Useful for the beginning researcher.

American Psychological Association. (2009) Publication manual of the American Psychological Association . 6th ed. Washington, DC: APA.

The authoritative style manual for anyone writing in the field of psychology. Useful for the social sciences generally. Chapters discuss the content and organization of a manuscript, writing style, the American Psychological Association citation style, and typing, mailing and proofreading.

If you are writing an annotated bibliography, read the following:

What is an annotated bibliography?

An annotated bibliography is a list of citations to books, articles, and documents. Each citation is followed by a brief (usually about 150 words) descriptive and evaluative paragraph, the annotation. The purpose of the annotation is to inform the reader of the relevance, accuracy, and quality of the sources cited.

Annotations vs. Abstracts

Abstracts are the purely descriptive summaries often found at the beginning of scholarly journal articles or in periodical indexes. Annotations are descriptive and critical; they expose the author's point of view, clarity and appropriateness of expression, and authority.

Sample Annotated Bibliography Entry for a Journal Article

The following example uses the APA format for the journal citation:

Goldschneider, F. K., Waite, L. J., & Witsberger, C. (1986). Nonfamily living and the erosion of traditional family orientations among young adults. American Sociological Review, 51 (4), 541-554. Retrieved from http://web.ebscohost.com.

The authors, researchers at the Rand Corporation and Brown University, use data from the National Longitudinal Surveys of Young Women and Young Men to test their hypothesis that nonfamily living by young adults alters their attitudes, values, plans, and expectations, moving them away from their belief in traditional sex roles. They find their hypothesis strongly supported in young females, while the effects were fewer in studies of young males. Increasing the time away from parents before marrying increased individualism, self-sufficiency, and changes in attitudes about families. In contrast, an earlier study by Williams cited below shows no significant gender differences in sex role attitudes as a result of nonfamily living.

Last Updated: Feb 21, 2024 4:48 PM
URL: https://research.ewu.edu/seven_steps

Basic Steps in the Research Process

The following steps outline a simple and effective strategy for writing a research paper. Depending on your familiarity with the topic and the challenges you encounter along the way, you may need to rearrange these steps.

Step 1: Identify and develop your topic

Selecting a topic can be the most challenging part of a research assignment. Since this is the very first step in writing a paper, it is vital that it be done correctly. Here are some tips for selecting a topic:

Select a topic within the parameters set by the assignment. Many times your instructor will give you clear guidelines as to what you can and cannot write about. Failure to work within these guidelines may result in your proposed paper being deemed unacceptable by your instructor.
Select a topic of personal interest to you and learn more about it. The research for and writing of a paper will be more enjoyable if you are writing about something that you find interesting.
Select a topic for which you can find a manageable amount of information. Do a preliminary search of information sources to determine whether existing sources will meet your needs. If you find too much information, you may need to narrow your topic; if you find too little, you may need to broaden your topic.
Be original. Your instructor reads hundreds of research papers every year, and many of them are on the same topics (topics in the news at the time, controversial issues, subjects for which there is ample and easily accessed information). Stand out from your classmates by selecting an interesting and off-the-beaten-path topic.
Still can't come up with a topic to write about? See your instructor for advice.

Once you have identified your topic, it may help to state it as a question. For example, if you are interested in finding out about the epidemic of obesity in the American population, you might pose the question "What are the causes of obesity in America ?" By posing your subject as a question you can more easily identify the main concepts or keywords to be used in your research.

Step 2 : Do a preliminary search for information

Before beginning your research in earnest, do a preliminary search to determine whether there is enough information out there for your needs and to set the context of your research. Look up your keywords in the appropriate titles in the library's Reference collection (such as encyclopedias and dictionaries) and in other sources such as our catalog of books, periodical databases, and Internet search engines. Additional background information may be found in your lecture notes, textbooks, and reserve readings. You may find it necessary to adjust the focus of your topic in light of the resources available to you.

Step 3: Locate materials

With the direction of your research now clear to you, you can begin locating material on your topic. There are a number of places you can look for information:

If you are looking for books, do a subject search in One Search . A Keyword search can be performed if the subject search doesn't yield enough information. Print or write down the citation information (author, title,etc.) and the location (call number and collection) of the item(s). Note the circulation status. When you locate the book on the shelf, look at the books located nearby; similar items are always shelved in the same area. The Aleph catalog also indexes the library's audio-visual holdings.

Use the library's electronic periodical databases to find magazine and newspaper articles. Choose the databases and formats best suited to your particular topic; ask at the librarian at the Reference Desk if you need help figuring out which database best meets your needs. Many of the articles in the databases are available in full-text format.

Use search engines ( Google , Yahoo , etc.) and subject directories to locate materials on the Internet. Check the Internet Resources section of the NHCC Library web site for helpful subject links.

Step 4: Evaluate your sources

See the CARS Checklist for Information Quality for tips on evaluating the authority and quality of the information you have located. Your instructor expects that you will provide credible, truthful, and reliable information and you have every right to expect that the sources you use are providing the same. This step is especially important when using Internet resources, many of which are regarded as less than reliable.

Step 5: Make notes

Consult the resources you have chosen and note the information that will be useful in your paper. Be sure to document all the sources you consult, even if you there is a chance you may not use that particular source. The author, title, publisher, URL, and other information will be needed later when creating a bibliography.

Step 6: Write your paper

Begin by organizing the information you have collected. The next step is the rough draft, wherein you get your ideas on paper in an unfinished fashion. This step will help you organize your ideas and determine the form your final paper will take. After this, you will revise the draft as many times as you think necessary to create a final product to turn in to your instructor.

Step 7: Cite your sources properly

Give credit where credit is due; cite your sources.

Citing or documenting the sources used in your research serves two purposes: it gives proper credit to the authors of the materials used, and it allows those who are reading your work to duplicate your research and locate the sources that you have listed as references. The MLA and the APA Styles are two popular citation formats.

Failure to cite your sources properly is plagiarism. Plagiarism is avoidable!

Step 8: Proofread

The final step in the process is to proofread the paper you have created. Read through the text and check for any errors in spelling, grammar, and punctuation. Make sure the sources you used are cited properly. Make sure the message that you want to get across to the reader has been thoroughly stated.

Additional research tips:

Work from the general to the specific -- find background information first, then use more specific sources.
Don't forget print sources -- many times print materials are more easily accessed and every bit as helpful as online resources.
The library has books on the topic of writing research papers at call number area LB 2369.
If you have questions about the assignment, ask your instructor.
If you have any questions about finding information in the library, ask the librarian.

Contact Information

Craig larson.

Librarian 763-424-0733 [email protected] Zoom: myzoom Available by appointment

Get Started

WESTCHESTER CAMPUS
Social Media Center
Directories

The Research Process

Research Quote

How to Use This Guide

1. Choose Your Topic
2. Develop a Research Question/Thesis
QuickSearch
Find Articles
Find Videos & Images
Web Searching
4. Strengthen Your Search Methods
5. Evaluate & Select Sources
6. Cite Sources

Get Help on Chat!

Guide feedback.

“Research is formalized curiosity. It is poking and prying with a purpose.” ― Zora Neale Hurston

Graphic on a blue background with icons of a street sign, a desktop computer, and a piece of paper with a pencil

In this guide, you will find information to help you:

Move through the steps of the research process and how to recognize when to change your plan
Locate and select sources for your information need from the Library and the internet
Seek help from professionals when needed

This guide discusses research generally without considering unique ways of searching in specific subject-area or assignments so reach out to your Professor or a Librarian for more specific guidance if needed.

For definitions and resources on Information Literacy skills that are a precursor to the Research Process, see our Information Literacy Skills Guide .

Research Steps (Infographic)
Text Description of the Infographic

(The graphic shows 5 steps of the research process in a circle, around an icon of a computer. Inside the computer it says Research Is a Process.)

Pace University Libraries logo

Research is not always a one-way process. It is iterative, which means you may need to reflect and repeat steps at certain points. As you move through the steps, especially in an academic setting, don’t be afraid to ask questions, start over, and ask for help!

Decide on your question/topic: Review your assignment & determine a topic to explore. What questions should you ask to explore that topic well?
You might refine your question at Steps 2 or 3!
Find relevant information: Search for information in sources most related to your topic. Use the library databases, Google Scholar, government sources, etc.
Do you need more evidence for your argument? Go back to Step 3.
Organize, Write, & Cite: Take notes on each source, write your paper to answer your questions, and cite information you found!

Use the side navigation to learn more about each step.

Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License

Created for educational purposes by: Jessica Kiebler

All icons in this guide are sourced from Freepik through flaticon.com .

This license lets others remix, tweak, and build upon your work even for commercial purposes, as long as they credit you and license their new creations under the identical terms.

Next: 1. Choose Your Topic >>
Last Updated: Apr 15, 2024 9:17 AM
URL: https://libguides.pace.edu/researchprocess
© Pace University
Work at Pace
Privacy Policy

How to Write a Research Paper

Use the links below to jump directly to any section of this guide:

Research Paper Fundamentals

How to choose a topic or question, how to create a working hypothesis or thesis, common research paper methodologies, how to gather and organize evidence , how to write an outline for your research paper, how to write a rough draft, how to revise your draft, how to produce a final draft, resources for teachers .

It is not fair to say that no one writes anymore. Just about everyone writes text messages, brief emails, or social media posts every single day. Yet, most people don't have a lot of practice with the formal, organized writing required for a good academic research paper. This guide contains links to a variety of resources that can help demystify the process. Some of these resources are intended for teachers; they contain exercises, activities, and teaching strategies. Other resources are intended for direct use by students who are struggling to write papers, or are looking for tips to make the process go more smoothly.

The resources in this section are designed to help students understand the different types of research papers, the general research process, and how to manage their time. Below, you'll find links from university writing centers, the trusted Purdue Online Writing Lab, and more.

What is an Academic Research Paper?

"Genre and the Research Paper" (Purdue OWL)

There are different types of research papers. Different types of scholarly questions will lend themselves to one format or another. This is a brief introduction to the two main genres of research paper: analytic and argumentative.

"7 Most Popular Types of Research Papers" (Personal-writer.com)

This resource discusses formats that high school students commonly encounter, such as the compare and contrast essay and the definitional essay. Please note that the inclusion of this link is not an endorsement of this company's paid service.

How to Prepare and Plan Out Writing a Research Paper

Teachers can give their students a step-by-step guide like these to help them understand the different steps of the research paper process. These guides can be combined with the time management tools in the next subsection to help students come up with customized calendars for completing their papers.

"Ten Steps for Writing Research Papers" (American University)

This resource from American University is a comprehensive guide to the research paper writing process, and includes examples of proper research questions and thesis topics.

"Steps in Writing a Research Paper" (SUNY Empire State College)

This guide breaks the research paper process into 11 steps. Each "step" links to a separate page, which describes the work entailed in completing it.

How to Manage Time Effectively

The links below will help students determine how much time is necessary to complete a paper. If your sources are not available online or at your local library, you'll need to leave extra time for the Interlibrary Loan process. Remember that, even if you do not need to consult secondary sources, you'll still need to leave yourself ample time to organize your thoughts.

"Research Paper Planner: Timeline" (Baylor University)

This interactive resource from Baylor University creates a suggested writing schedule based on how much time a student has to work on the assignment.

"Research Paper Planner" (UCLA)

UCLA's library offers this step-by-step guide to the research paper writing process, which also includes a suggested planning calendar.

There's a reason teachers spend a long time talking about choosing a good topic. Without a good topic and a well-formulated research question, it is almost impossible to write a clear and organized paper. The resources below will help you generate ideas and formulate precise questions.

"How to Select a Research Topic" (Univ. of Michigan-Flint)

This resource is designed for college students who are struggling to come up with an appropriate topic. A student who uses this resource and still feels unsure about his or her topic should consult the course instructor for further personalized assistance.

"25 Interesting Research Paper Topics to Get You Started" (Kibin)

This resource, which is probably most appropriate for high school students, provides a list of specific topics to help get students started. It is broken into subsections, such as "paper topics on local issues."

"Writing a Good Research Question" (Grand Canyon University)

This introduction to research questions includes some embedded videos, as well as links to scholarly articles on research questions. This resource would be most appropriate for teachers who are planning lessons on research paper fundamentals.

"How to Write a Research Question the Right Way" (Kibin)

This student-focused resource provides more detail on writing research questions. The language is accessible, and there are embedded videos and examples of good and bad questions.

It is important to have a rough hypothesis or thesis in mind at the beginning of the research process. People who have a sense of what they want to say will have an easier time sorting through scholarly sources and other information. The key, of course, is not to become too wedded to the draft hypothesis or thesis. Just about every working thesis gets changed during the research process.

CrashCourse Video: "Sociology Research Methods" (YouTube)

Although this video is tailored to sociology students, it is applicable to students in a variety of social science disciplines. This video does a good job demonstrating the connection between the brainstorming that goes into selecting a research question and the formulation of a working hypothesis.

"How to Write a Thesis Statement for an Analytical Essay" (YouTube)

Students writing analytical essays will not develop the same type of working hypothesis as students who are writing research papers in other disciplines. For these students, developing the working thesis may happen as a part of the rough draft (see the relevant section below).

"Research Hypothesis" (Oakland Univ.)

This resource provides some examples of hypotheses in social science disciplines like Political Science and Criminal Justice. These sample hypotheses may also be useful for students in other soft social sciences and humanities disciplines like History.

When grading a research paper, instructors look for a consistent methodology. This section will help you understand different methodological approaches used in research papers. Students will get the most out of these resources if they use them to help prepare for conversations with teachers or discussions in class.

"Types of Research Designs" (USC)

A "research design," used for complex papers, is related to the paper's method. This resource contains introductions to a variety of popular research designs in the social sciences. Although it is not the most intuitive site to read, the information here is very valuable.

"Major Research Methods" (YouTube)

Although this video is a bit on the dry side, it provides a comprehensive overview of the major research methodologies in a format that might be more accessible to students who have struggled with textbooks or other written resources.

"Humanities Research Strategies" (USC)

This is a portal where students can learn about four methodological approaches for humanities papers: Historical Methodologies, Textual Criticism, Conceptual Analysis, and the Synoptic method.

"Selected Major Social Science Research Methods: Overview" (National Academies Press)

This appendix from the book Using Science as Evidence in Public Policy , printed by National Academies Press, introduces some methods used in social science papers.

"Organizing Your Social Sciences Research Paper: 6. The Methodology" (USC)

This resource from the University of Southern California's library contains tips for writing a methodology section in a research paper.

How to Determine the Best Methodology for You

Anyone who is new to writing research papers should be sure to select a method in consultation with their instructor. These resources can be used to help prepare for that discussion. They may also be used on their own by more advanced students.

"Choosing Appropriate Research Methodologies" (Palgrave Study Skills)

This friendly and approachable resource from Palgrave Macmillan can be used by students who are just starting to think about appropriate methodologies.

"How to Choose Your Research Methods" (NFER (UK))

This is another approachable resource students can use to help narrow down the most appropriate methods for their research projects.

The resources in this section introduce the process of gathering scholarly sources and collecting evidence. You'll find a range of material here, from introductory guides to advanced explications best suited to college students. Please consult the LitCharts How to Do Academic Research guide for a more comprehensive list of resources devoted to finding scholarly literature.

Google Scholar

Students who have access to library websites with detailed research guides should start there, but people who do not have access to those resources can begin their search for secondary literature here.

"Gathering Appropriate Information" (Texas Gateway)

This resource from the Texas Gateway for online resources introduces students to the research process, and contains interactive exercises. The level of complexity is suitable for middle school, high school, and introductory college classrooms.

"An Overview of Quantitative and Qualitative Data Collection Methods" (NSF)

This PDF from the National Science Foundation goes into detail about best practices and pitfalls in data collection across multiple types of methodologies.

"Social Science Methods for Data Collection and Analysis" (Swiss FIT)

This resource is appropriate for advanced undergraduates or teachers looking to create lessons on research design and data collection. It covers techniques for gathering data via interviews, observations, and other methods.

"Collecting Data by In-depth Interviewing" (Leeds Univ.)

This resource contains enough information about conducting interviews to make it useful for teachers who want to create a lesson plan, but is also accessible enough for college juniors or seniors to make use of it on their own.

There is no "one size fits all" outlining technique. Some students might devote all their energy and attention to the outline in order to avoid the paper. Other students may benefit from being made to sit down and organize their thoughts into a lengthy sentence outline. The resources in this section include strategies and templates for multiple types of outlines.

"Topic vs. Sentence Outlines" (UC Berkeley)

This resource introduces two basic approaches to outlining: the shorter topic-based approach, and the longer, more detailed sentence-based approach. This resource also contains videos on how to develop paper paragraphs from the sentence-based outline.

"Types of Outlines and Samples" (Purdue OWL)

The Purdue Online Writing Lab's guide is a slightly less detailed discussion of different types of outlines. It contains several sample outlines.

"Writing An Outline" (Austin C.C.)

This resource from a community college contains sample outlines from an American history class that students can use as models.

"How to Structure an Outline for a College Paper" (YouTube)

This brief (sub-2 minute) video from the ExpertVillage YouTube channel provides a model of outline writing for students who are struggling with the idea.

"Outlining" (Harvard)

This is a good resource to consult after completing a draft outline. It offers suggestions for making sure your outline avoids things like unnecessary repetition.

As with outlines, rough drafts can take on many different forms. These resources introduce teachers and students to the various approaches to writing a rough draft. This section also includes resources that will help you cite your sources appropriately according to the MLA, Chicago, and APA style manuals.

"Creating a Rough Draft for a Research Paper" (Univ. of Minnesota)

This resource is useful for teachers in particular, as it provides some suggested exercises to help students with writing a basic rough draft.

Rough Draft Assignment (Duke of Definition)

This sample assignment, with a brief list of tips, was developed by a high school teacher who runs a very successful and well-reviewed page of educational resources.

"Creating the First Draft of Your Research Paper" (Concordia Univ.)

This resource will be helpful for perfectionists or procrastinators, as it opens by discussing the problem of avoiding writing. It also provides a short list of suggestions meant to get students writing.

Using Proper Citations

There is no such thing as a rough draft of a scholarly citation. These links to the three major citation guides will ensure that your citations follow the correct format. Please consult the LitCharts How to Cite Your Sources guide for more resources.

Chicago Manual of Style Citation Guide

Some call The Chicago Manual of Style , which was first published in 1906, "the editors' Bible." The manual is now in its 17th edition, and is popular in the social sciences, historical journals, and some other fields in the humanities.

APA Citation Guide

According to the American Psychological Association, this guide was developed to aid reading comprehension, clarity of communication, and to reduce bias in language in the social and behavioral sciences. Its first full edition was published in 1952, and it is now in its sixth edition.

MLA Citation Guide

The Modern Language Association style is used most commonly within the liberal arts and humanities. The MLA Style Manual and Guide to Scholarly Publishing was first published in 1985 and (as of 2008) is in its third edition.

Any professional scholar will tell you that the best research papers are made in the revision stage. No matter how strong your research question or working thesis, it is not possible to write a truly outstanding paper without devoting energy to revision. These resources provide examples of revision exercises for the classroom, as well as tips for students working independently.

"The Art of Revision" (Univ. of Arizona)

This resource provides a wealth of information and suggestions for both students and teachers. There is a list of suggested exercises that teachers might use in class, along with a revision checklist that is useful for teachers and students alike.

"Script for Workshop on Revision" (Vanderbilt University)

Vanderbilt's guide for leading a 50-minute revision workshop can serve as a model for teachers who wish to guide students through the revision process during classtime.

"Revising Your Paper" (Univ. of Washington)

This detailed handout was designed for students who are beginning the revision process. It discusses different approaches and methods for revision, and also includes a detailed list of things students should look for while they revise.

"Revising Drafts" (UNC Writing Center)

This resource is designed for students and suggests things to look for during the revision process. It provides steps for the process and has a FAQ for students who have questions about why it is important to revise.

Conferencing with Writing Tutors and Instructors

No writer is so good that he or she can't benefit from meeting with instructors or peer tutors. These resources from university writing, learning, and communication centers provide suggestions for how to get the most out of these one-on-one meetings.

"Getting Feedback" (UNC Writing Center)

This very helpful resource talks about how to ask for feedback during the entire writing process. It contains possible questions that students might ask when developing an outline, during the revision process, and after the final draft has been graded.

"Prepare for Your Tutoring Session" (Otis College of Art and Design)

This guide from a university's student learning center contains a lot of helpful tips for getting the most out of working with a writing tutor.

"The Importance of Asking Your Professor" (Univ. of Waterloo)

This article from the university's Writing and Communication Centre's blog contains some suggestions for how and when to get help from professors and Teaching Assistants.

Once you've revised your first draft, you're well on your way to handing in a polished paper. These resources—each of them produced by writing professionals at colleges and universities—outline the steps required in order to produce a final draft. You'll find proofreading tips and checklists in text and video form.

"Developing a Final Draft of a Research Paper" (Univ. of Minnesota)

While this resource contains suggestions for revision, it also features a couple of helpful checklists for the last stages of completing a final draft.

Basic Final Draft Tips and Checklist (Univ. of Maryland-University College)

This short and accessible resource, part of UMUC's very thorough online guide to writing and research, contains a very basic checklist for students who are getting ready to turn in their final drafts.

Final Draft Checklist (Everett C.C.)

This is another accessible final draft checklist, appropriate for both high school and college students. It suggests reading your essay aloud at least once.

"How to Proofread Your Final Draft" (YouTube)

This video (approximately 5 minutes), produced by Eastern Washington University, gives students tips on proofreading final drafts.

"Proofreading Tips" (Georgia Southern-Armstrong)

This guide will help students learn how to spot common errors in their papers. It suggests focusing on content and editing for grammar and mechanics.

This final set of resources is intended specifically for high school and college instructors. It provides links to unit plans and classroom exercises that can help improve students' research and writing skills. You'll find resources that give an overview of the process, along with activities that focus on how to begin and how to carry out research.

"Research Paper Complete Resources Pack" (Teachers Pay Teachers)

This packet of assignments, rubrics, and other resources is designed for high school students. The resources in this packet are aligned to Common Core standards.

"Research Paper—Complete Unit" (Teachers Pay Teachers)

This packet of assignments, notes, PowerPoints, and other resources has a 4/4 rating with over 700 ratings. It is designed for high school teachers, but might also be useful to college instructors who work with freshmen.

"Teaching Students to Write Good Papers" (Yale)

This resource from Yale's Center for Teaching and Learning is designed for college instructors, and it includes links to appropriate activities and exercises.

"Research Paper Writing: An Overview" (CUNY Brooklyn)

CUNY Brooklyn offers this complete lesson plan for introducing students to research papers. It includes an accompanying set of PowerPoint slides.

"Lesson Plan: How to Begin Writing a Research Paper" (San Jose State Univ.)

This lesson plan is designed for students in the health sciences, so teachers will have to modify it for their own needs. It includes a breakdown of the brainstorming, topic selection, and research question process.

"Quantitative Techniques for Social Science Research" (Univ. of Pittsburgh)

This is a set of PowerPoint slides that can be used to introduce students to a variety of quantitative methods used in the social sciences.

PDFs for all 136 Lit Terms we cover
Downloads of 1929 LitCharts Lit Guides
Teacher Editions for every Lit Guide
Explanations and citation info for 40,694 quotes across 1929 books
Downloadable (PDF) line-by-line translations of every Shakespeare play

Need something? Request a new guide .

How can we improve? Share feedback .

LitCharts is hiring!

school Campus Bookshelves
menu_book Bookshelves
perm_media Learning Objects
login Login
how_to_reg Request Instructor Account
hub Instructor Commons

Margin Size

Download Page (PDF)
Download Full Book (PDF)
Periodic Table
Physics Constants
Scientific Calculator
Reference & Cite
Tools expand_more
Readability

selected template will load here

This action is not available.

8.1: The Seven Steps of the Research Process

Last updated
Save as PDF
Page ID 5488
Lumen Learning

\( \newcommand{\vecs}[1]{\overset { \scriptstyle \rightharpoonup} {\mathbf{#1}} } \)

\( \newcommand{\vecd}[1]{\overset{-\!-\!\rightharpoonup}{\vphantom{a}\smash {#1}}} \)

\( \newcommand{\id}{\mathrm{id}}\) \( \newcommand{\Span}{\mathrm{span}}\)

( \newcommand{\kernel}{\mathrm{null}\,}\) \( \newcommand{\range}{\mathrm{range}\,}\)

\( \newcommand{\RealPart}{\mathrm{Re}}\) \( \newcommand{\ImaginaryPart}{\mathrm{Im}}\)

\( \newcommand{\Argument}{\mathrm{Arg}}\) \( \newcommand{\norm}[1]{\| #1 \|}\)

\( \newcommand{\inner}[2]{\langle #1, #2 \rangle}\)

\( \newcommand{\Span}{\mathrm{span}}\)

\( \newcommand{\id}{\mathrm{id}}\)

\( \newcommand{\kernel}{\mathrm{null}\,}\)

\( \newcommand{\range}{\mathrm{range}\,}\)

\( \newcommand{\RealPart}{\mathrm{Re}}\)

\( \newcommand{\ImaginaryPart}{\mathrm{Im}}\)

\( \newcommand{\Argument}{\mathrm{Arg}}\)

\( \newcommand{\norm}[1]{\| #1 \|}\)

\( \newcommand{\Span}{\mathrm{span}}\) \( \newcommand{\AA}{\unicode[.8,0]{x212B}}\)

\( \newcommand{\vectorA}[1]{\vec{#1}} % arrow\)

\( \newcommand{\vectorAt}[1]{\vec{\text{#1}}} % arrow\)

\( \newcommand{\vectorB}[1]{\overset { \scriptstyle \rightharpoonup} {\mathbf{#1}} } \)

\( \newcommand{\vectorC}[1]{\textbf{#1}} \)

\( \newcommand{\vectorD}[1]{\overrightarrow{#1}} \)

\( \newcommand{\vectorDt}[1]{\overrightarrow{\text{#1}}} \)

\( \newcommand{\vectE}[1]{\overset{-\!-\!\rightharpoonup}{\vphantom{a}\smash{\mathbf {#1}}}} \)

STEP 1: IDENTIFY AND DEVELOP YOUR TOPIC

SUMMARY: State your topic as a question. For example, if you are interested in finding out about use of alcoholic beverages by college students, you might pose the question, “What effect does use of alcoholic beverages have on the health of college students?” Identify the main concepts or keywords in your question.

More details on how to identify and develop your topic.

STEP 2: FIND BACKGROUND INFORMATION

SUMMARY: Look up your keywords in the indexes to subject encyclopedias. Read articles in these encyclopedias to set the context for your research. Note any relevant items in the bibliographies at the end of the encyclopedia articles. Additional background information may be found in your lecture notes, textbooks, and reserve readings.

More suggestions on how to find background information.

STEP 3: USE CATALOGS TO FIND BOOKS AND MEDIA

SUMMARY: Use guided keyword searching to find materials by topic or subject. Print or write down the citation (author, title,etc.) and the location information (call number and library). Note the circulation status. When you pull the book from the shelf, scan the bibliography for additional sources. Watch for book-length bibliographies and annual reviews on your subject; they list citations to hundreds of books and articles in one subject area. Check the standard subject subheading “—BIBLIOGRAPHIES,” or titles beginning with Annual Review of… in the Cornell Library Classic Catalog.

More detailed instructions for using catalogs to find books.

Finding media (audio and video) titles .

STEP 4: USE INDEXES TO FIND PERIODICAL ARTICLES

SUMMARY: Use periodical indexes and abstracts to find citations to articles. The indexes and abstracts may be in print or computer-based formats or both. Choose the indexes and format best suited to your particular topic; ask at the reference desk if you need help figuring out which index and format will be best. You can find periodical articles by the article author, title, or keyword by using the periodical indexes in theLibrary home page. If the full text is not linked in the index you are using, write down the citation from the index and search for the title of the periodical in the Cornell Library Classic Catalog. The catalog lists the print, microform, and electronic versions of periodicals at Cornell.

How to find and use periodical indexes at Cornell.

STEP 5: FIND INTERNET RESOURCES

SUMMARY: Use search engines. Check to see if your class has a bibliography or research guide created by librarians.

Finding Information on the Internet : A thorough tutorial from UC Berkeley.

STEP 6: EVALUATE WHAT YOU FIND

SUMMARY: See How to Critically Analyze Information Sources and Distinguishing Scholarly from Non-Scholarly Periodicals: A Checklist of Criteria for suggestions on evaluating the authority and quality of the books and articles you located.

If you have found too many or too few sources, you may need to narrow or broaden your topic. Check with a reference librarian or your instructor. When you’re ready to write, here is an annotated list of books to help you organize, format, and write your paper.

STEP 7: CITE WHAT YOU FIND USING A STANDARD FORMAT

Give credit where credit is due; cite your sources.

Knowingly representing the work of others as your own is plagarism. (See Cornell’s Code of Academic Integrity ). Use one of the styles listed below or another style approved by your instructor. Handouts summarizing the APA and MLA styles are available at Uris and Olin Reference.

Available online :

RefWorks is a web-based program that allows you to easily collect, manage, and organize bibliographic references by interfacing with databases. RefWorks also interfaces directly with Word, making it easy to import references and incorporate them into your writing, properly formatted according to the style of your choice.

See our guide to citation tools and styles .

Format the citations in your bibliography using examples from the following Library help pages: Modern Language Association (MLA) examples and American Psychological Association (APA) examples .

Style guides in print (book) format:
MLA Handbook for Writers of Research Papers . 7th ed. New York: MLA, 2009. This handbook is based on the MLA Style Manual and is intended as an aid for college students writing research papers. Included here is information on selecting a topic, researching the topic, note taking, the writing of footnotes and bibliographies, as well as sample pages of a research paper. Useful for the beginning researcher.
Publication Manual of the American Psychological Association . 6th ed. Washington: APA, 2010. The authoritative style manual for anyone writing in the field of psychology. Useful for the social sciences generally. Chapters discuss the content and organization of a manuscript, writing style, the American Psychological Association citation style, and typing, mailing and proofreading.

If you are writing an annotated bibliography, see How to Prepare an Annotated Bibliography .

RESEARCH TIPS:

WORK FROM THE GENERAL TO THE SPECIFIC. Find background information first, then use more specific and recent sources.
RECORD WHAT YOU FIND AND WHERE YOU FOUND IT. Record the complete citation for each source you find; you may need it again later.
TRANSLATE YOUR TOPIC INTO THE SUBJECT LANGUAGE OF THE INDEXES AND CATALOGS YOU USE. Check your topic words against a thesaurus or subject heading list.

The Research Process

First Online: 01 January 2022

Cite this chapter

Sergey K. Aityan 2

Part of the book series: Classroom Companion: Business ((CCB))

3688 Accesses

1 Citations

A correctly established and thoroughly followed research process significantly improves the quality of the research by assuring that no steps are missing and the research is complete and credible. Though details of the research process may depend on the type of research and other related circumstances, there is a typical research process framework that can be used as a framework for almost all research projects. The typical research process consists of three distinct phases:

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Available as EPUB and PDF
Read on any device
Instant download
Own it forever
Durable hardcover edition
Dispatched in 3 to 5 business days
Free shipping worldwide - see info

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

Shiskin, Julius (1 December 1974). “The Changing Business Cycle”. The New York Times

7 http://www.nber.org/cycles/recessions.html

Investopedia, s.v. “Volatility,” 7 http://www.investopedia.com/terms/v/volatility.asp

7 riskglossary.com , s.v. “Volatility,” 7 http://www.riskglossary.com/link/volatility.htm

Author information

Authors and affiliations.

Lincoln University - California, Oakland, CA, USA

Sergey K. Aityan

You can also search for this author in PubMed Google Scholar

Corresponding author

Correspondence to Sergey K. Aityan .

Rights and permissions

Reprints and permissions

Copyright information

About this chapter

Aityan, S.K. (2022). The Research Process. In: Business Research Methodology. Classroom Companion: Business. Springer, Cham. https://doi.org/10.1007/978-3-030-76857-7_3

Download citation

DOI : https://doi.org/10.1007/978-3-030-76857-7_3

Published : 01 January 2022

Publisher Name : Springer, Cham

Print ISBN : 978-3-030-76856-0

Online ISBN : 978-3-030-76857-7

eBook Packages : Business and Management Business and Management (R0)

Share this chapter

Anyone you share the following link with will be able to read this content:

Sorry, a shareable link is not currently available for this article.

Provided by the Springer Nature SharedIt content-sharing initiative

Publish with us

Policies and ethics

Find a journal
Track your research

Anatomy of a research paper

Affiliation.

1 Department of Surgery, University of Cincinnati, 231 Albert Sabin Way, ML #0558, Cincinnati OH 45267-0558, USA. [email protected]
PMID: 15447807

Writing, editing, and publishing the paper is the last step in the research process. The paper tells the story of the project from inception, through the data-collection process, statistical analysis, and discussion of the results. Novice authors often struggle with writing and often find themselves with either nothing on paper or a weighty version of random thoughts. The process of writing the paper should be analogous to the research process. This article describes and provides a template for the essential sections and features of a scientific report (structured abstract, introduction, hypothesis, methods, results, discussion, and conclusions), describes authorship guidelines that have been established by professional societies, and discusses the importance of adequate and correct references.

Abstracting and Indexing
Biomedical Research*
Peer Review, Research
Writing* / standards

When you choose to publish with PLOS, your research makes an impact. Make your work accessible to all, without restrictions, and accelerate scientific discovery with options like preprints and published peer review that make your work more Open.

PLOS Biology
PLOS Climate
PLOS Complex Systems
PLOS Computational Biology
PLOS Digital Health
PLOS Genetics
PLOS Global Public Health
PLOS Medicine
PLOS Mental Health
PLOS Neglected Tropical Diseases
PLOS Pathogens
PLOS Sustainability and Transformation
PLOS Collections

Understanding the Publishing Process

What’s happening with my paper? The publication process explained

The path to publication can be unsettling when you’re unsure what’s happening with your paper. Learn about staple journal workflows to see the detailed steps required for ensuring a rigorous and ethical publication.

Your team has prepared the paper, written a cover letter and completed the submission form. From here, it can sometimes feel like a waiting game while the journal has your paper. It can be unclear exactly who is currently handling your paper as most individuals are only involved in a few steps of the overall process. Journals are responsible for overseeing the peer review, publication and archival process: editors, reviewers, technical editors, production staff and other internal staff all have their roles in ensuring submissions meet rigorous scientific and ethical reporting standards.

Read on for an inside look at how a conventional peer-reviewed journal helps authors transform their initial submission to a certified publication.

Note that the description below is based on the process at PLOS journals. It is likely that at other journals, various roles (e.g. technical editor) may in fact also be played by the editor, and some journals may not have journal staff at all, with all roles played by volunteer academics. As such, please consider the processes and waypoints, rather than who performs them, as the key information.

Internal Checks on New Submissions

Estimated time: 10 days.

When a journal first receives your submission, there are typically two separate checks to confirm that the paper is appropriate and ready for peer review:

Technical check. Performed by a technical editor to ensure that the submission has been properly completed and is ready for further assessment. Blurry figures, missing ethical statements, and incomplete author affiliations are common issues that are addressed at this initial stage. Typically, there are three technical checks: upon initial submission, alongside the first decision letter, and upon acceptance.
Editorial screening . Once a paper passes the first check, an editor with subject expertise assesses the paper and determines whether it is within the journal’s scope and if it could potentially meet the required publication criteria. While there may be requests for further information and minor edits from the author as needed, the paper will either be desk rejected by the editor or allowed to proceed to peer review.

Both editors at this point will additionally make notes for items to be followed-up on at later stages. The publication process involves finding a careful balance for when each check occurs. Early checks need to be thorough so that editors with relevant expertise can focus on the scientific content and more advanced reporting standards, but no one wants to be asked to reformat references only to have their paper desk rejected a few days later.

Peer Review

Estimated time: 1 month.

Depending on the journal’s editorial structure, the editor who performed the initial assessment may also oversee peer review or another editor with more specific expertise may be assigned. Regardless of the journal’s specific process, the various roles and responsibilities during peer review include:

When you have questions or are unsure who your manuscripts is currently with, reach out to the journal staff for help (eg. [email protected]). They will be your lifeline, connecting you to all the other contributors working to assess the manuscript.

Whether an editor needs a reminder that all reviews are complete or a reviewer has asked for an extension, the journal acts as a central hub of communication for those involved with the publication process. As editors and reviewers are used to hearing from journal staff about their duties, any messages you send to the journal can be forwarded to them with proper context and instructions on how to proceed appropriately. Additionally, journal staff will be able to inform you of any delays, such as reviewer availability during summer and holiday periods.

Revision Decision

Estimated time: 1 day.

Editors evaluate peer reviewer feedback and their own expert assessment of the manuscript to reach a decision. After your editor submits a decision on your manuscript, the journal may review it before formally processing the decision and sending it on to you.

A technical editor may scan the manuscript and the review comments to ensure that journal standards have been followed. At this stage, the technical editor will also add requests to ensure the paper, if published, will adhere to journal requirements for data sharing, copyright, ethical reporting and the like.

Performing the second technical check at this stage and adding the journal requirements to the decision letter ultimately saves time by allowing authors to resolve the journal’s queries while making revisions based on comments from the reviewers.

Revised Submission Received

Estimated time: 3 days.

Upon receiving your revised submission, a technical editor will assess the revisions to confirm that the requests from the journal have been properly addressed. Before the paper is returned to the editor for their consideration, the journal needs to be confident that the paper won’t have any issues related to the metadata and reporting standards that could prevent publication. The editor may contact you to resolve any serious issues, though minor items can wait until the paper is accepted.

Subsequent Peer Review

Estimated time: 2 weeks, highly variable.

When your resubmitted paper has passed the required checks, it’ll be assigned back to the same editor who handled it during the first round of peer review. At this point, your paper has gone through two sets of journal checks and one round of peer review. If all has gone well so far, the paper should feel quite solid both in terms of scientific content and proper reporting standards.

When the editor receives your revised paper, they are asked to check if all reviewer comments have been adequately addressed and if the paper now adheres to the journal’s publication criteria. Depending on the situation, some editors may feel confident making this decision based on their own expertise while others may re-invite the previous reviewers for their opinions.

Individual responsibilities are the same as the initial round of peer review, but it is generally expected that later stages of peer review proceed quicker unless new concerns have been introduced as part of the revision.

Preliminary Acceptance

Estimated time: 1 week.

Your editor is satisfied with the scientific quality of your work and has chosen to accept it in principle. Before it can proceed to production and typesetting, the journal office will perform it’s third and final technical check, requesting any formatting changes or additional details that may be required.

When fulfilling these final journal requests, double check the final files to confirm all information is correct. If you need to make changes beyond those specifically required in the decision letter, inform the journal and explain why you made the unrequested changes. Any change that could affect the scientific meaning of the work will need to be approved by the handling editor. While including your rationale for the changes will help avoid delays, if there are extensive changes made at this point the paper may need to go through another round of formal review.

Formal Acceptance and Publication

Estimated time: 2 weeks.

After a technical editor has confirmed that all requests from the provisional acceptance letter have been addressed, you will receive your formal acceptance letter. This letter indicates that your paper is being passed from the Editorial department to the production department—that all information has been editorially approved. The scientific content has been approved through peer review, and the journal’s publication requirements have been met.

Congratulations to you and your co-authors! Your article will be available as soon as the journal transforms the submission into a typeset, consistently structured scientific manuscript, ready to be read and cited by your peers.

The contents of the Peer Review Center are also available as a live, interactive training session, complete with slides, talking points, and activities. …

The contents of the Writing Center are also available as a live, interactive training session, complete with slides, talking points, and activities. …

There’s a lot to consider when deciding where to submit your work. Learn how to choose a journal that will help your study reach its audience, while reflecting your values as a researcher…

An official website of the United States government

The .gov means it’s official. Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

The site is secure. The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Publications
Account settings

Preview improvements coming to the PMC website in October 2024. Learn More or Try it out now .

Advanced Search
Journal List
J Pharmacol Pharmacother
v.4(2); Apr-Jun 2013

The critical steps for successful research: The research proposal and scientific writing: (A report on the pre-conference workshop held in conjunction with the 64 th annual conference of the Indian Pharmaceutical Congress-2012)

Pitchai balakumar.

Pharmacology Unit, Faculty of Pharmacy, AIMST University, Semeling, 08100 Bedong. Kedah Darul Aman, Malaysia

Mohammed Naseeruddin Inamdar

1 Department of Pharmacology, Al-Ameen College of Pharmacy, Bengaluru, Karnataka, India

Gowraganahalli Jagadeesh

2 Division of Cardiovascular and Renal Products, Center for Drug Evaluation and Research, US Food and Drug Administration, Silver Spring, USA

An interactive workshop on ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing’ was conducted in conjunction with the 64 th Annual Conference of the Indian Pharmaceutical Congress-2012 at Chennai, India. In essence, research is performed to enlighten our understanding of a contemporary issue relevant to the needs of society. To accomplish this, a researcher begins search for a novel topic based on purpose, creativity, critical thinking, and logic. This leads to the fundamental pieces of the research endeavor: Question, objective, hypothesis, experimental tools to test the hypothesis, methodology, and data analysis. When correctly performed, research should produce new knowledge. The four cornerstones of good research are the well-formulated protocol or proposal that is well executed, analyzed, discussed and concluded. This recent workshop educated researchers in the critical steps involved in the development of a scientific idea to its successful execution and eventual publication.

INTRODUCTION

Creativity and critical thinking are of particular importance in scientific research. Basically, research is original investigation undertaken to gain knowledge and understand concepts in major subject areas of specialization, and includes the generation of ideas and information leading to new or substantially improved scientific insights with relevance to the needs of society. Hence, the primary objective of research is to produce new knowledge. Research is both theoretical and empirical. It is theoretical because the starting point of scientific research is the conceptualization of a research topic and development of a research question and hypothesis. Research is empirical (practical) because all of the planned studies involve a series of observations, measurements, and analyses of data that are all based on proper experimental design.[ 1 – 9 ]

The subject of this report is to inform readers of the proceedings from a recent workshop organized by the 64 th Annual conference of the ‘ Indian Pharmaceutical Congress ’ at SRM University, Chennai, India, from 05 to 06 December 2012. The objectives of the workshop titled ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing,’ were to assist participants in developing a strong fundamental understanding of how best to develop a research or study protocol, and communicate those research findings in a conference setting or scientific journal. Completing any research project requires meticulous planning, experimental design and execution, and compilation and publication of findings in the form of a research paper. All of these are often unfamiliar to naïve researchers; thus, the purpose of this workshop was to teach participants to master the critical steps involved in the development of an idea to its execution and eventual publication of the results (See the last section for a list of learning objectives).

THE STRUCTURE OF THE WORKSHOP

The two-day workshop was formatted to include key lectures and interactive breakout sessions that focused on protocol development in six subject areas of the pharmaceutical sciences. This was followed by sessions on scientific writing. DAY 1 taught the basic concepts of scientific research, including: (1) how to formulate a topic for research and to describe the what, why , and how of the protocol, (2) biomedical literature search and review, (3) study designs, statistical concepts, and result analyses, and (4) publication ethics. DAY 2 educated the attendees on the basic elements and logistics of writing a scientific paper and thesis, and preparation of poster as well as oral presentations.

The final phase of the workshop was the ‘Panel Discussion,’ including ‘Feedback/Comments’ by participants. There were thirteen distinguished speakers from India and abroad. Approximately 120 post-graduate and pre-doctoral students, young faculty members, and scientists representing industries attended the workshop from different parts of the country. All participants received a printed copy of the workshop manual and supporting materials on statistical analyses of data.

THE BASIC CONCEPTS OF RESEARCH: THE KEY TO GETTING STARTED IN RESEARCH

A research project generally comprises four key components: (1) writing a protocol, (2) performing experiments, (3) tabulating and analyzing data, and (4) writing a thesis or manuscript for publication.

Fundamentals in the research process

A protocol, whether experimental or clinical, serves as a navigator that evolves from a basic outline of the study plan to become a qualified research or grant proposal. It provides the structural support for the research. Dr. G. Jagadeesh (US FDA), the first speaker of the session, spoke on ‘ Fundamentals in research process and cornerstones of a research project .’ He discussed at length the developmental and structural processes in preparing a research protocol. A systematic and step-by-step approach is necessary in planning a study. Without a well-designed protocol, there would be a little chance for successful completion of a research project or an experiment.

Research topic

The first and the foremost difficult task in research is to identify a topic for investigation. The research topic is the keystone of the entire scientific enterprise. It begins the project, drives the entire study, and is crucial for moving the project forward. It dictates the remaining elements of the study [ Table 1 ] and thus, it should not be too narrow or too broad or unfocused. Because of these potential pitfalls, it is essential that a good or novel scientific idea be based on a sound concept. Creativity, critical thinking, and logic are required to generate new concepts and ideas in solving a research problem. Creativity involves critical thinking and is associated with generating many ideas. Critical thinking is analytical, judgmental, and involves evaluating choices before making a decision.[ 4 ] Thus, critical thinking is convergent type thinking that narrows and refines those divergent ideas and finally settles to one idea for an in-depth study. The idea on which a research project is built should be novel, appropriate to achieve within the existing conditions, and useful to the society at large. Therefore, creativity and critical thinking assist biomedical scientists in research that results in funding support, novel discovery, and publication.[ 1 , 4 ]

Elements of a study protocol

An external file that holds a picture, illustration, etc.
Object name is JPP-4-130-g001.jpg

Research question

The next most crucial aspect of a study protocol is identifying a research question. It should be a thought-provoking question. The question sets the framework. It emerges from the title, findings/results, and problems observed in previous studies. Thus, mastering the literature, attendance at conferences, and discussion in journal clubs/seminars are sources for developing research questions. Consider the following example in developing related research questions from the research topic.

Hepatoprotective activity of Terminalia arjuna and Apium graveolens on paracetamol-induced liver damage in albino rats.

How is paracetamol metabolized in the body? Does it involve P450 enzymes? How does paracetamol cause liver injury? What are the mechanisms by which drugs can alleviate liver damage? What biochemical parameters are indicative of liver injury? What major endogenous inflammatory molecules are involved in paracetamol-induced liver damage?

A research question is broken down into more precise objectives. The objectives lead to more precise methods and definition of key terms. The objectives should be SMART-Specific, Measurable, Achievable, Realistic, Time-framed,[ 10 ] and should cover the entire breadth of the project. The objectives are sometimes organized into hierarchies: Primary, secondary, and exploratory; or simply general and specific. Study the following example:

To evaluate the safety and tolerability of single oral doses of compound X in normal volunteers.

To assess the pharmacokinetic profile of compound X following single oral doses.

To evaluate the incidence of peripheral edema reported as an adverse event.

The objectives and research questions are then formulated into a workable or testable hypothesis. The latter forces us to think carefully about what comparisons will be needed to answer the research question, and establishes the format for applying statistical tests to interpret the results. The hypothesis should link a process to an existing or postulated biologic pathway. A hypothesis is written in a form that can yield measurable results. Studies that utilize statistics to compare groups of data should have a hypothesis. Consider the following example:

The hepatoprotective activity of Terminalia arjuna is superior to that of Apium graveolens against paracetamol-induced liver damage in albino rats.

All biological research, including discovery science, is hypothesis-driven. However, not all studies need be conducted with a hypothesis. For example, descriptive studies (e.g., describing characteristics of a plant, or a chemical compound) do not need a hypothesis.[ 1 ]

Relevance of the study

Another important section to be included in the protocol is ‘significance of the study.’ Its purpose is to justify the need for the research that is being proposed (e.g., development of a vaccine for a disease). In summary, the proposed study should demonstrate that it represents an advancement in understanding and that the eventual results will be meaningful, contribute to the field, and possibly even impact society.

Biomedical literature

A literature search may be defined as the process of examining published sources of information on a research or review topic, thesis, grant application, chemical, drug, disease, or clinical trial, etc. The quantity of information available in print or electronically (e.g., the internet) is immense and growing with time. A researcher should be familiar with the right kinds of databases and search engines to extract the needed information.[ 3 , 6 ]

Dr. P. Balakumar (Institute of Pharmacy, Rajendra Institute of Technology and Sciences, Sirsa, Haryana; currently, Faculty of Pharmacy, AIMST University, Malaysia) spoke on ‘ Biomedical literature: Searching, reviewing and referencing .’ He schematically explained the basis of scientific literature, designing a literature review, and searching literature. After an introduction to the genesis and diverse sources of scientific literature searches, the use of PubMed, one of the premier databases used for biomedical literature searches world-wide, was illustrated with examples and screenshots. Several companion databases and search engines are also used for finding information related to health sciences, and they include Embase, Web of Science, SciFinder, The Cochrane Library, International Pharmaceutical Abstracts, Scopus, and Google Scholar.[ 3 ] Literature searches using alternative interfaces for PubMed such as GoPubMed, Quertle, PubFocus, Pubget, and BibliMed were discussed. The participants were additionally informed of databases on chemistry, drugs and drug targets, clinical trials, toxicology, and laboratory animals (reviewed in ref[ 3 ]).

Referencing and bibliography are essential in scientific writing and publication.[ 7 ] Referencing systems are broadly classified into two major types, such as Parenthetical and Notation systems. Parenthetical referencing is also known as Harvard style of referencing, while Vancouver referencing style and ‘Footnote’ or ‘Endnote’ are placed under Notation referencing systems. The participants were educated on each referencing system with examples.

Bibliography management

Dr. Raj Rajasekaran (University of California at San Diego, CA, USA) enlightened the audience on ‘ bibliography management ’ using reference management software programs such as Reference Manager ® , Endnote ® , and Zotero ® for creating and formatting bibliographies while writing a manuscript for publication. The discussion focused on the use of bibliography management software in avoiding common mistakes such as incomplete references. Important steps in bibliography management, such as creating reference libraries/databases, searching for references using PubMed/Google scholar, selecting and transferring selected references into a library, inserting citations into a research article and formatting bibliographies, were presented. A demonstration of Zotero®, a freely available reference management program, included the salient features of the software, adding references from PubMed using PubMed ID, inserting citations and formatting using different styles.

Writing experimental protocols

The workshop systematically instructed the participants in writing ‘ experimental protocols ’ in six disciplines of Pharmaceutical Sciences.: (1) Pharmaceutical Chemistry (presented by Dr. P. V. Bharatam, NIPER, Mohali, Punjab); (2) Pharmacology (presented by Dr. G. Jagadeesh and Dr. P. Balakumar); (3) Pharmaceutics (presented by Dr. Jayant Khandare, Piramal Life Sciences, Mumbai); (4) Pharmacy Practice (presented by Dr. Shobha Hiremath, Al-Ameen College of Pharmacy, Bengaluru); (5) Pharmacognosy and Phytochemistry (presented by Dr. Salma Khanam, Al-Ameen College of Pharmacy, Bengaluru); and (6) Pharmaceutical Analysis (presented by Dr. Saranjit Singh, NIPER, Mohali, Punjab). The purpose of the research plan is to describe the what (Specific Aims/Objectives), why (Background and Significance), and how (Design and Methods) of the proposal.

The research plan should answer the following questions: (a) what do you intend to do; (b) what has already been done in general, and what have other researchers done in the field; (c) why is this worth doing; (d) how is it innovative; (e) what will this new work add to existing knowledge; and (f) how will the research be accomplished?

In general, the format used by the faculty in all subjects is shown in Table 2 .

Elements of a research protocol

An external file that holds a picture, illustration, etc.
Object name is JPP-4-130-g002.jpg

Biostatistics

Biostatistics is a key component of biomedical research. Highly reputed journals like The Lancet, BMJ, Journal of the American Medical Association, and many other biomedical journals include biostatisticians on their editorial board or reviewers list. This indicates that a great importance is given for learning and correctly employing appropriate statistical methods in biomedical research. The post-lunch session on day 1 of the workshop was largely committed to discussion on ‘ Basic biostatistics .’ Dr. R. Raveendran (JIPMER, Puducherry) and Dr. Avijit Hazra (PGIMER, Kolkata) reviewed, in parallel sessions, descriptive statistics, probability concepts, sample size calculation, choosing a statistical test, confidence intervals, hypothesis testing and ‘ P ’ values, parametric and non-parametric statistical tests, including analysis of variance (ANOVA), t tests, Chi-square test, type I and type II errors, correlation and regression, and summary statistics. This was followed by a practice and demonstration session. Statistics CD, compiled by Dr. Raveendran, was distributed to the participants before the session began and was demonstrated live. Both speakers worked on a variety of problems that involved both clinical and experimental data. They discussed through examples the experimental designs encountered in a variety of studies and statistical analyses performed for different types of data. For the benefit of readers, we have summarized statistical tests applied frequently for different experimental designs and post-hoc tests [ Figure 1 ].

An external file that holds a picture, illustration, etc.
Object name is JPP-4-130-g003.jpg

Conceptual framework for statistical analyses of data. Of the two kinds of variables, qualitative (categorical) and quantitative (numerical), qualitative variables (nominal or ordinal) are not normally distributed. Numerical data that come from normal distributions are analyzed using parametric tests, if not; the data are analyzed using non-parametric tests. The most popularly used Student's t -test compares the means of two populations, data for this test could be paired or unpaired. One-way analysis of variance (ANOVA) is used to compare the means of three or more independent populations that are normally distributed. Applying t test repeatedly in pair (multiple comparison), to compare the means of more than two populations, will increase the probability of type I error (false positive). In this case, for proper interpretation, we need to adjust the P values. Repeated measures ANOVA is used to compare the population means if more than two observations coming from same subject over time. The null hypothesis is rejected with a ‘ P ’ value of less than 0.05, and the difference in population means is considered to be statistically significant. Subsequently, appropriate post-hoc tests are used for pairwise comparisons of population means. Two-way or three-way ANOVA are considered if two (diet, dose) or three (diet, dose, strain) independent factors, respectively, are analyzed in an experiment (not described in the Figure). Categorical nominal unmatched variables (counts or frequencies) are analyzed by Chi-square test (not shown in the Figure)

Research and publication ethics

The legitimate pursuit of scientific creativity is unfortunately being marred by a simultaneous increase in scientific misconduct. A disproportionate share of allegations involves scientists of many countries, and even from respected laboratories. Misconduct destroys faith in science and scientists and creates a hierarchy of fraudsters. Investigating misconduct also steals valuable time and resources. In spite of these facts, most researchers are not aware of publication ethics.

Day 1 of the workshop ended with a presentation on ‘ research and publication ethics ’ by Dr. M. K. Unnikrishnan (College of Pharmaceutical Sciences, Manipal University, Manipal). He spoke on the essentials of publication ethics that included plagiarism (attempting to take credit of the work of others), self-plagiarism (multiple publications by an author on the same content of work with slightly different wordings), falsification (manipulation of research data and processes and omitting critical data or results), gift authorship (guest authorship), ghostwriting (someone other than the named author (s) makes a major contribution), salami publishing (publishing many papers, with minor differences, from the same study), and sabotage (distracting the research works of others to halt their research completion). Additionally, Dr. Unnikrishnan pointed out the ‘ Ingelfinger rule ’ of stipulating that a scientist must not submit the same original research in two different journals. He also advised the audience that authorship is not just credit for the work but also responsibility for scientific contents of a paper. Although some Indian Universities are instituting preventive measures (e.g., use of plagiarism detecting software, Shodhganga digital archiving of doctoral theses), Dr. Unnikrishnan argued for a great need to sensitize young researchers on the nature and implications of scientific misconduct. Finally, he discussed methods on how editors and peer reviewers should ethically conduct themselves while managing a manuscript for publication.

SCIENTIFIC COMMUNICATION: THE KEY TO SUCCESSFUL SELLING OF FINDINGS

Research outcomes are measured through quality publications. Scientists must not only ‘do’ science but must ‘write’ science. The story of the project must be told in a clear, simple language weaving in previous work done in the field, answering the research question, and addressing the hypothesis set forth at the beginning of the study. Scientific publication is an organic process of planning, researching, drafting, revising, and updating the current knowledge for future perspectives. Writing a research paper is no easier than the research itself. The lectures of Day 2 of the workshop dealt with the basic elements and logistics of writing a scientific paper.

An overview of paper structure and thesis writing

Dr. Amitabh Prakash (Adis, Auckland, New Zealand) spoke on ‘ Learning how to write a good scientific paper .’ His presentation described the essential components of an original research paper and thesis (e.g., introduction, methods, results, and discussion [IMRaD]) and provided guidance on the correct order, in which data should appear within these sections. The characteristics of a good abstract and title and the creation of appropriate key words were discussed. Dr. Prakash suggested that the ‘title of a paper’ might perhaps have a chance to make a good impression, and the title might be either indicative (title that gives the purpose of the study) or declarative (title that gives the study conclusion). He also suggested that an abstract is a succinct summary of a research paper, and it should be specific, clear, and concise, and should have IMRaD structure in brief, followed by key words. Selection of appropriate papers to be cited in the reference list was also discussed. Various unethical authorships were enumerated, and ‘The International Committee of Medical Journal Editors (ICMJE) criteria for authorship’ was explained ( http://www.icmje.org/ethical_1author.html ; also see Table 1 in reference #9). The session highlighted the need for transparency in medical publication and provided a clear description of items that needed to be included in the ‘Disclosures’ section (e.g., sources of funding for the study and potential conflicts of interest of all authors, etc.) and ‘Acknowledgements’ section (e.g., writing assistance and input from all individuals who did not meet the authorship criteria). The final part of the presentation was devoted to thesis writing, and Dr. Prakash provided the audience with a list of common mistakes that are frequently encountered when writing a manuscript.

The backbone of a study is description of results through Text, Tables, and Figures. Dr. S. B. Deshpande (Institute of Medical Sciences, Banaras Hindu University, Varanasi, India) spoke on ‘ Effective Presentation of Results .’ The Results section deals with the observations made by the authors and thus, is not hypothetical. This section is subdivided into three segments, that is, descriptive form of the Text, providing numerical data in Tables, and visualizing the observations in Graphs or Figures. All these are arranged in a sequential order to address the question hypothesized in the Introduction. The description in Text provides clear content of the findings highlighting the observations. It should not be the repetition of facts in tables or graphs. Tables are used to summarize or emphasize descriptive content in the text or to present the numerical data that are unrelated. Illustrations should be used when the evidence bearing on the conclusions of a paper cannot be adequately presented in a written description or in a Table. Tables or Figures should relate to each other logically in sequence and should be clear by themselves. Furthermore, the discussion is based entirely on these observations. Additionally, how the results are applied to further research in the field to advance our understanding of research questions was discussed.

Dr. Peush Sahni (All-India Institute of Medical Sciences, New Delhi) spoke on effectively ‘ structuring the Discussion ’ for a research paper. The Discussion section deals with a systematic interpretation of study results within the available knowledge. He said the section should begin with the most important point relating to the subject studied, focusing on key issues, providing link sentences between paragraphs, and ensuring the flow of text. Points were made to avoid history, not repeat all the results, and provide limitations of the study. The strengths and novel findings of the study should be provided in the discussion, and it should open avenues for future research and new questions. The Discussion section should end with a conclusion stating the summary of key findings. Dr. Sahni gave an example from a published paper for writing a Discussion. In another presentation titled ‘ Writing an effective title and the abstract ,’ Dr. Sahni described the important components of a good title, such as, it should be simple, concise, informative, interesting and eye-catching, accurate and specific about the paper's content, and should state the subject in full indicating study design and animal species. Dr. Sahni explained structured (IMRaD) and unstructured abstracts and discussed a few selected examples with the audience.

Language and style in publication

The next lecture of Dr. Amitabh Prakash on ‘ Language and style in scientific writing: Importance of terseness, shortness and clarity in writing ’ focused on the actual sentence construction, language, grammar and punctuation in scientific manuscripts. His presentation emphasized the importance of brevity and clarity in the writing of manuscripts describing biomedical research. Starting with a guide to the appropriate construction of sentences and paragraphs, attendees were given a brief overview of the correct use of punctuation with interactive examples. Dr. Prakash discussed common errors in grammar and proactively sought audience participation in correcting some examples. Additional discussion was centered on discouraging the use of redundant and expendable words, jargon, and the use of adjectives with incomparable words. The session ended with a discussion of words and phrases that are commonly misused (e.g., data vs . datum, affect vs . effect, among vs . between, dose vs . dosage, and efficacy/efficacious vs . effective/effectiveness) in biomedical research manuscripts.

Working with journals

The appropriateness in selecting the journal for submission and acceptance of the manuscript should be determined by the experience of an author. The corresponding author must have a rationale in choosing the appropriate journal, and this depends upon the scope of the study and the quality of work performed. Dr. Amitabh Prakash spoke on ‘ Working with journals: Selecting a journal, cover letter, peer review process and impact factor ’ by instructing the audience in assessing the true value of a journal, understanding principles involved in the peer review processes, providing tips on making an initial approach to the editorial office, and drafting an appropriate cover letter to accompany the submission. His presentation defined the metrics that are most commonly used to measure journal quality (e.g., impact factor™, Eigenfactor™ score, Article Influence™ score, SCOPUS 2-year citation data, SCImago Journal Rank, h-Index, etc.) and guided attendees on the relative advantages and disadvantages of using each metric. Factors to consider when assessing journal quality were discussed, and the audience was educated on the ‘green’ and ‘gold’ open access publication models. Various peer review models (e.g., double-blind, single-blind, non-blind) were described together with the role of the journal editor in assessing manuscripts and selecting suitable reviewers. A typical checklist sent to referees was shared with the attendees, and clear guidance was provided on the best way to address referee feedback. The session concluded with a discussion of the potential drawbacks of the current peer review system.

Poster and oral presentations at conferences

Posters have become an increasingly popular mode of presentation at conferences, as it can accommodate more papers per meeting, has no time constraint, provides a better presenter-audience interaction, and allows one to select and attend papers of interest. In Figure 2 , we provide instructions, design, and layout in preparing a scientific poster. In the final presentation, Dr. Sahni provided the audience with step-by-step instructions on how to write and format posters for layout, content, font size, color, and graphics. Attendees were given specific guidance on the format of text on slides, the use of color, font type and size, and the use of illustrations and multimedia effects. Moreover, the importance of practical tips while delivering oral or poster presentation was provided to the audience, such as speak slowly and clearly, be informative, maintain eye contact, and listen to the questions from judges/audience carefully before coming up with an answer.

An external file that holds a picture, illustration, etc.
Object name is JPP-4-130-g004.jpg

Guidelines and design to scientific poster presentation. The objective of scientific posters is to present laboratory work in scientific meetings. A poster is an excellent means of communicating scientific work, because it is a graphic representation of data. Posters should have focus points, and the intended message should be clearly conveyed through simple sections: Text, Tables, and Graphs. Posters should be clear, succinct, striking, and eye-catching. Colors should be used only where necessary. Use one font (Arial or Times New Roman) throughout. Fancy fonts should be avoided. All headings should have font size of 44, and be in bold capital letters. Size of Title may be a bit larger; subheading: Font size of 36, bold and caps. References and Acknowledgments, if any, should have font size of 24. Text should have font size between 24 and 30, in order to be legible from a distance of 3 to 6 feet. Do not use lengthy notes

PANEL DISCUSSION: FEEDBACK AND COMMENTS BY PARTICIPANTS

After all the presentations were made, Dr. Jagadeesh began a panel discussion that included all speakers. The discussion was aimed at what we do currently and could do in the future with respect to ‘developing a research question and then writing an effective thesis proposal/protocol followed by publication.’ Dr. Jagadeesh asked the following questions to the panelists, while receiving questions/suggestions from the participants and panelists.

Does a Post-Graduate or Ph.D. student receive adequate training, either through an institutional course, a workshop of the present nature, or from the guide?
Are these Post-Graduates self-taught (like most of us who learnt the hard way)?
How are these guides trained? How do we train them to become more efficient mentors?
Does a Post-Graduate or Ph.D. student struggle to find a method (s) to carry out studies? To what extent do seniors/guides help a post graduate overcome technical difficulties? How difficult is it for a student to find chemicals, reagents, instruments, and technical help in conducting studies?
Analyses of data and interpretation: Most students struggle without adequate guidance.
Thesis and publications frequently feature inadequate/incorrect statistical analyses and representation of data in tables/graphs. The student, their guide, and the reviewers all share equal responsibility.
Who initiates and drafts the research paper? The Post-Graduate or their guide?
What kind of assistance does a Post-Graduate get from the guide in finalizing a paper for publication?
Does the guide insist that each Post-Graduate thesis yield at least one paper, and each Ph.D. thesis more than two papers, plus a review article?

The panelists and audience expressed a variety of views, but were unable to arrive at a decisive conclusion.

WHAT HAVE THE PARTICIPANTS LEARNED?

At the end of this fast-moving two-day workshop, the participants had opportunities in learning the following topics:

Sequential steps in developing a study protocol, from choosing a research topic to developing research questions and a hypothesis.
Study protocols on different topics in their subject of specialization
Searching and reviewing the literature
Appropriate statistical analyses in biomedical research
Scientific ethics in publication
Writing and understanding the components of a research paper (IMRaD)
Recognizing the value of good title, running title, abstract, key words, etc
Importance of Tables and Figures in the Results section, and their importance in describing findings
Evidence-based Discussion in a research paper
Language and style in writing a paper and expert tips on getting it published
Presentation of research findings at a conference (oral and poster).

Overall, the workshop was deemed very helpful to participants. The participants rated the quality of workshop from “ satisfied ” to “ very satisfied .” A significant number of participants were of the opinion that the time allotted for each presentation was short and thus, be extended from the present two days to four days with adequate time to ask questions. In addition, a ‘hands-on’ session should be introduced for writing a proposal and manuscript. A large number of attendees expressed their desire to attend a similar workshop, if conducted, in the near future.

ACKNOWLEDGMENT

We gratefully express our gratitude to the Organizing Committee, especially Professors K. Chinnasamy, B. G. Shivananda, N. Udupa, Jerad Suresh, Padma Parekh, A. P. Basavarajappa, Mr. S. V. Veerramani, Mr. J. Jayaseelan, and all volunteers of the SRM University. We thank Dr. Thomas Papoian (US FDA) for helpful comments on the manuscript.

The opinions expressed herein are those of Gowraganahalli Jagadeesh and do not necessarily reflect those of the US Food and Drug Administration

Source of Support: Nil

Conflict of Interest: None declared.

Have a language expert improve your writing

Run a free plagiarism check in 10 minutes, automatically generate references for free.

Knowledge Base
Research process

A Beginner's Guide to Starting the Research Process

When you have to write a thesis or dissertation , it can be hard to know where to begin, but there are some clear steps you can follow.

The research process often begins with a very broad idea for a topic you’d like to know more about. You do some preliminary research to identify a problem . After refining your research questions , you can lay out the foundations of your research design , leading to a proposal that outlines your ideas and plans.

This article takes you through the first steps of the research process, helping you narrow down your ideas and build up a strong foundation for your research project.

Step 1: choose your topic, step 2: identify a problem, step 3: formulate research questions, step 4: create a research design, step 5: write a research proposal.

First you have to come up with some ideas. Your thesis or dissertation topic can start out very broad. Think about the general area or field you’re interested in—maybe you already have specific research interests based on classes you’ve taken, or maybe you had to consider your topic when applying to graduate school and writing a statement of purpose .

Even if you already have a good sense of your topic, you’ll need to read widely to build background knowledge and begin narrowing down your ideas. Conduct an initial literature review to begin gathering relevant sources. As you read, take notes and try to identify problems, questions, debates, contradictions and gaps. Your aim is to narrow down from a broad area of interest to a specific niche.

Make sure to consider the practicalities: the requirements of your programme, the amount of time you have to complete the research, and how difficult it will be to access sources and data on the topic. Before moving onto the next stage, it’s a good idea to discuss the topic with your thesis supervisor.

>>Read more about narrowing down a research topic

Prevent plagiarism, run a free check.

So you’ve settled on a topic and found a niche—but what exactly will your research investigate, and why does it matter? To give your project focus and purpose, you have to define a research problem .

The problem might be a practical issue—for example, a process or practice that isn’t working well, an area of concern in an organization’s performance, or a difficulty faced by a specific group of people in society.

Alternatively, you might choose to investigate a theoretical problem—for example, an underexplored phenomenon or relationship, a contradiction between different models or theories, or an unresolved debate among scholars.

To put the problem in context and set your objectives, you can write a problem statement . This describes who the problem affects, why research is needed, and how your research project will contribute to solving it.

>>Read more about defining a research problem

Next, based on the problem statement, you need to write one or more research questions . These target exactly what you want to find out. They might focus on describing, comparing, evaluating, or explaining the research problem.

A strong research question should be specific enough that you can answer it thoroughly using appropriate qualitative or quantitative research methods. It should also be complex enough to require in-depth investigation, analysis, and argument. Questions that can be answered with “yes/no” or with easily available facts are not complex enough for a thesis or dissertation.

In some types of research, at this stage you might also have to develop a conceptual framework and testable hypotheses .

>>See research question examples

The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods you’ll use to collect and analyze it, and the location and timescale of your research.

There are often many possible paths you can take to answering your questions. The decisions you make will partly be based on your priorities. For example, do you want to determine causes and effects, draw generalizable conclusions, or understand the details of a specific context?

You need to decide whether you will use primary or secondary data and qualitative or quantitative methods . You also need to determine the specific tools, procedures, and materials you’ll use to collect and analyze your data, as well as your criteria for selecting participants or sources.

>>Read more about creating a research design

Finally, after completing these steps, you are ready to complete a research proposal . The proposal outlines the context, relevance, purpose, and plan of your research.

As well as outlining the background, problem statement, and research questions, the proposal should also include a literature review that shows how your project will fit into existing work on the topic. The research design section describes your approach and explains exactly what you will do.

You might have to get the proposal approved by your supervisor before you get started, and it will guide the process of writing your thesis or dissertation.

>>Read more about writing a research proposal

Is this article helpful?

Other students also liked, how to write a dissertation proposal | a step-by-step guide, dissertation & thesis outline | example & free templates, how to write a thesis or dissertation introduction, more interesting articles.

How to Choose a Dissertation Topic | 8 Steps to Follow
How to Define a Research Problem | Ideas & Examples
How to Write a Problem Statement | Guide & Examples
How to Write a Research Proposal | Examples & Templates
Relevance of Your Dissertation Topic | Criteria & Tips
What Is a Fishbone Diagram? | Templates & Examples
What Is Root Cause Analysis? | Definition & Examples
Writing Strong Research Questions | Criteria & Examples

Introduction
Article Information

In panel A, oscillation and dips potentially related to seasonal variation in daily steps counts could be observed in both pre–COVID-19 and post–COVID-19 phases. In panel B, analysis was conducted using a cosinor linear mixed-effects model. In panel C, models were adjusted for age, sex, deprivation index, median income, and region. IES indicates Impact of Events Scale; PHQ, Patient Health Questionnaire; PSS, Perceived Stress Scale.

Data Sharing Statement

See More About

Customize your JAMA Network experience by selecting one or more topics from the list below.

Academic Medicine
Acid Base, Electrolytes, Fluids
Allergy and Clinical Immunology
American Indian or Alaska Natives
Anesthesiology
Anticoagulation
Art and Images in Psychiatry
Artificial Intelligence
Assisted Reproduction
Bleeding and Transfusion
Caring for the Critically Ill Patient
Challenges in Clinical Electrocardiography
Climate and Health
Climate Change
Clinical Challenge
Clinical Decision Support
Clinical Implications of Basic Neuroscience
Clinical Pharmacy and Pharmacology
Complementary and Alternative Medicine
Consensus Statements
Coronavirus (COVID-19)
Critical Care Medicine
Cultural Competency
Dental Medicine
Dermatology
Diabetes and Endocrinology
Diagnostic Test Interpretation
Drug Development
Electronic Health Records
Emergency Medicine
End of Life, Hospice, Palliative Care
Environmental Health
Equity, Diversity, and Inclusion
Facial Plastic Surgery
Gastroenterology and Hepatology
Genetics and Genomics
Genomics and Precision Health
Global Health
Guide to Statistics and Methods
Hair Disorders
Health Care Delivery Models
Health Care Economics, Insurance, Payment
Health Care Quality
Health Care Reform
Health Care Safety
Health Care Workforce
Health Disparities
Health Inequities
Health Policy
Health Systems Science
History of Medicine
Hypertension
Images in Neurology
Implementation Science
Infectious Diseases
Innovations in Health Care Delivery
JAMA Infographic
Law and Medicine
Leading Change
Less is More
LGBTQIA Medicine
Lifestyle Behaviors
Medical Coding
Medical Devices and Equipment
Medical Education
Medical Education and Training
Medical Journals and Publishing
Mobile Health and Telemedicine
Narrative Medicine
Neuroscience and Psychiatry
Notable Notes
Nutrition, Obesity, Exercise
Obstetrics and Gynecology
Occupational Health
Ophthalmology
Orthopedics
Otolaryngology
Pain Medicine
Palliative Care
Pathology and Laboratory Medicine
Patient Care
Patient Information
Performance Improvement
Performance Measures
Perioperative Care and Consultation
Pharmacoeconomics
Pharmacoepidemiology
Pharmacogenetics
Pharmacy and Clinical Pharmacology
Physical Medicine and Rehabilitation
Physical Therapy
Physician Leadership
Population Health
Primary Care
Professional Well-being
Professionalism
Psychiatry and Behavioral Health
Public Health
Pulmonary Medicine
Regulatory Agencies
Reproductive Health
Research, Methods, Statistics
Resuscitation
Rheumatology
Risk Management
Scientific Discovery and the Future of Medicine
Shared Decision Making and Communication
Sleep Medicine
Sports Medicine
Stem Cell Transplantation
Substance Use and Addiction Medicine
Surgical Innovation
Surgical Pearls
Teachable Moment
Technology and Finance
The Art of JAMA
The Arts and Medicine
The Rational Clinical Examination
Tobacco and e-Cigarettes
Translational Medicine
Trauma and Injury
Treatment Adherence
Ultrasonography
Users' Guide to the Medical Literature
Vaccination
Venous Thromboembolism
Veterans Health
Women's Health
Workflow and Process
Wound Care, Infection, Healing

Get the latest research based on your areas of interest.

Others also liked.

Download PDF
X Facebook More LinkedIn

Desine S , Master H , Annis J, et al. Daily Step Counts Before and After the COVID-19 Pandemic Among All of Us Research Participants. JAMA Netw Open. 2023;6(3):e233526. doi:10.1001/jamanetworkopen.2023.3526

Manage citations:

Permissions

Daily Step Counts Before and After the COVID-19 Pandemic Among All of Us Research Participants

1 Division of Cardiovascular Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
2 Vanderbilt Institute of Clinical and Translational Research, Vanderbilt University Medical Center, Nashville, Tennessee
3 Department of Medicine and Biomedical Informatics, Vanderbilt University Medical Center, Nashville, Tennessee
4 Departments of Biomedical Informatics, Biomedical Engineering and Biostatistics, Vanderbilt University Medical Center, Nashville, Tennessee

The COVID-19 outbreak had a global impact on physical, mental, and social health. Data collected early in the pandemic suggested a general decline in step counts worldwide, 1 but factors contributing to reduced activity have not been identified.

This study aimed to examine whether COVID-19 was associated with daily activity among All of Us (AOU) research program 2 participants. We hypothesized that a decline in activity across the US would persist after most social distancing recommendations were relaxed, and that socioeconomic factors and mental health status would continue to affect reduced activity.

Using AOU Research Program Controlled Tier data set (released June 2022), this cohort study included participants who wore a digital device tracking physical activity (Fitbit Inc) for at least 10 days each month (eMethods in Supplement 1 ). Daily steps (averaged monthly) were examined over 4 years from January 2018 through December 2021. Counterfactual analysis based on 2 years of activity data preceding COVID-19 was used to estimate postpandemic steps. Differences in observed and estimated post–COVID-19 daily steps were examined using Wilcoxon rank sum test with continuity correction.

Surveys were used to assess sociodemographic factors, mental health, location, and deprivation index at the time of enrollment. 3 Linear mixed models examined associations of COVID-19 vaccine, comorbidities, sociodemographic, and mental health factors with differences in observed and estimated post–COVID-19 daily steps (eMethods in Supplement 1 ).

In this study, only the authorized authors who completed AOU Responsible Conduct of Research training accessed the deidentified data from the Researcher Workbench (a secured cloud-based platform). Because the authors were not directly involved with the participants, institutional review board review and the requirement for informed consent was exempted. This study followed the Strengthening the Reporting of Observational Studies in Epidemiology ( STROBE ) reporting guideline. Analysis was conducted using R version 4.2.2 (R Project for Statistical Computing). The threshold for significance was P < .05 determined in 2-sided tests.

We analyzed data from 5443 (3903 [71.7%] female; 257 [4.7%] Black, 4681 [86.0%] White, 505 [9.3%] other; median [IQR] age, 53 [38-64] years) participants with valid Fitbit data for at least 6 months pre- and post–COVID-19 ( Table ). Median (IQR) observed daily step counts pre–COVID-19 (ranged from January 1, 2018, to January 31, 2020) and post–COVID-19 (ranged from June 1, 2020, to December 31, 2021) were 7808 (5923-10 108) steps and 7089 (5101-9740) steps, respectively. The counterfactual model estimated participants walked 575 (95% CI, 521-629) fewer steps per day post–COVID-19 compared with observed daily steps ( P < .001; Figure , A). The difference between observed and estimated post–COVID-19 steps was significantly explained by younger age (β = −243 per 10-year decrease; P < .001), Northeast region compared with other regions (Northeast vs others, β = −288, P < .001), and higher deprivation index (β = −477 per 0.1 increment; P < .001) ( Figure , B). Post–COVID-19 step counts were also explained by COVID-19 vaccination status (vaccinated vs unvaccinated: β = 48; P < .01), depression (β = −36 per 1 score increment; P < .01), and psychological stress (β = −13 per 1 score increment; P < .01) ( Figure , C). We found no association between reduced step counts and sex or comorbidities such obesity, diabetes, coronary artery disease, hypertension or cancer.

These findings suggest a consistent, widespread, and significant decline in activity following the onset of COVID-19 in the US. Vulnerable populations, including individuals at a lower socioeconomic status and those reporting worse mental health in the early COVID-19 period, were at the highest risk of reduced activity. We found a statistically significant decline in daily step counts that persisted even after most COVID-19–related restrictions were relaxed, suggesting COVID-19 affected long-term behavioral choices. Currently, it is unknown whether this reduction is steps is clinically meaningful over time. Any meaningful difference is likely dependent on baseline activity, age, and other patient-level factors. Our prior work in the AOU cohort suggests that modestly lower step counts over a long period could have a substantial contribution to long-term disease risk. 4

While our data include some selection bias (eg, majority were White, young, and active and only included participants who owned and reported valid tracking data), this finding extends the work of prior studies showing an early reduction in activity. 1 , 5 We also imposed relatively stringent criteria for a valid tracking day, which could have biased our results toward more active individuals. The 2% of our cohort with prior COVID-19 infection likely underestimated the true prevalence as it did not include positive home tests. Despite these limitations, our study showed COVID-19 to be associated with decreased physical activity, which may have implications for future cardiometabolic risk with the potential to exacerbate health disparities related to socioeconomic status and mental health.

Accepted for Publication: January 31, 2023.

Published: March 20, 2023. doi:10.1001/jamanetworkopen.2023.3526

Corresponding Author: Evan L. Brittain, MD, MSc, Division of Cardiovascular Medicine, Vanderbilt University Medical Center, 2525 West End Ave, Ste 300A, Nashville, TN 37203 ( [email protected] ).

Author Contributions: Dr Brittain had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis.

Concept and design: Master, Annis, Roden, Harris, Brittain.

Acquisition, analysis, or interpretation of data: Desine, Master, Annis, Hughes, Brittain.

Drafting of the manuscript: Desine, Master, Brittain.

Critical revision of the manuscript for important intellectual content: All authors.

Statistical analysis: Desine, Master, Annis.

Obtained funding: Harris.

Administrative, technical, or material support: Annis.

Supervision: Master, Annis, Brittain.

Conflict of Interest Disclosures: None reported.

Funding/Support: The All of Us Research Program is supported by the National Institutes of Health, Office of the Director (Regional Medical Centers: Nos. 1 OT2 OD026549, 1 OT2 OD026554, 1 OT2 OD026557, 1 OT2 OD026556, 1 OT2 OD026550, 1 OT2 OD 026552, 1 OT2 OD026553, 1 OT2 OD026548, 1 OT2 OD026551, 1 OT2 OD026555; IAA: Nos. AOD21037, AOD22003, AOD16037, AOD21041; Federally Qualified Health Centers: No. HHSN 263201600085U; Data and Research Center: No. 5 U2C OD023196, OT2 ActOD035404; Biobank: No. 1 U24 OD023121; The Participant Center: No. U24 OD023176; Participant Technology Systems Center: No. 1 U24 OD023163; Communications and Engagement: Nos. 3 OT2 OD023205, 3 OT2 OD023206; and Community Partners: Nos. 1 OT2 OD025277, 3 OT2 OD025315, 1 OT2 OD025337, 1 OT2 OD025276). Dr Brittain is supported by Vanderbilt University Medical Center (grant Nos. R01 HL146588 and 1 R61 HL158941-01A1).

Role of the Funder/Sponsor: The funders had no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; and decision to submit the manuscript for publication.

Data Sharing Statement: See Supplement 2 .

Additional Contributions: The All of Us Research Program would not be possible without the partnership of its participants.

Register for email alerts with links to free full-text articles
Access PDFs of free articles
Manage your interests
Save searches and receive search alerts

IMAGES

Steps In Doing Research Paper , Basic Steps in the Research Process
Components of Research Process
Research papers Writing Steps And process of writing a paper
How to Write a Research Paper: 5 Steps Process
[steps of research]
Best Steps to Write a Research Paper in College/University

VIDEO

The Research Process
How To Solve The Last Step On A 2x2x3
Metho 6: The Research Process (Introduction)
Research Paper Process
Research Methodology: How To Write Research Paper in Hindi Manuscript Writing Skill
Research Methodology 1 for 4th Year Physics by Dr Nasih in Kurdish Language

COMMENTS

Overview of Research Process
The Research Process. Anything you write involves organization and a logical flow of ideas, so understanding the logic of the research process before beginning to write is essential. Simply put, you need to put your writing in the larger context—see the forest before you even attempt to see the trees. In this brief introductory module, we ...
Key Steps in the Research Process
Step 7: Present the Findings. After meticulous analysis and interpretation of your research findings, as dictated by the research process steps, the moment arrives to disseminate your insights. Effectively presenting your research is key to captivating your audience and conveying the importance of your findings.
Research Process
The research process has numerous applications across a wide range of fields and industries. Some examples of applications of the research process include: Scientific research: The research process is widely used in scientific research to investigate phenomena in the natural world and develop new theories or technologies. This includes fields ...
Research Process Steps: What they are + How To Follow
Step 1: Identify the Problem. Finding an issue or formulating a research question is the first step. A well-defined research problem will guide the researcher through all stages of the research process, from setting objectives to choosing a technique. There are a number of approaches to get insight into a topic and gain a better understanding ...
Research Guides: 6 Stages of Research: 1: Task Definition
By breaking the process down into these 6 stages, your paper will be better and you will get more out of the research experience. The 6 stages are: Task Definition (developing a topic) Information Seeking (coming up with a research plan) Location & Access (finding good sources) Use of Information (Reading, taking notes, and generally making the ...
PDF Section 1 Introduction to The Research 2017. Process
The process of writing a research paper requires a good deal of time, energy, and ... when the process is broken into steps, as shown in Figure 1.1. It is important to remember that a good research paper cannot be written at the last minute, so be sure to allow enough time to focus on each of these ...
A Beginner's Guide to Starting the Research Process
Step 4: Create a research design. The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods you'll use to collect and analyze it, and the location and timescale of your research. There are often many possible paths you can take to answering ...
3.2: Overview of the Research Process
The final phase of research involves preparing the final research report documenting the entire research process and its findings in the form of a research paper, dissertation, or monograph. This report should outline in detail all the choices made during the research process (e.g., theory used, constructs selected, measures used, research ...
The research process
The final phase of research involves preparing the final research report documenting the entire research process and its findings in the form of a research paper, dissertation, or monograph. This report should outline in detail all the choices made during the research process (e.g., theory used, constructs selected, measures used, research ...
Research Paper Steps
Research Paper Steps. Carefully defining your research question as well as implementing and conducting research are absolutely critical to a good research paper. If you follow the suggestions for each step of the research process carefully and thoughtfully, you'll understand the process of research much better and create a stronger end ...
PDF The Seven Steps of the Research Process
The Seven Steps of the Research Process The Seven Steps of the Research Process The following seven steps outline a simple and effective strategy for finding information for a research paper and documenting the sources you find. Depending on your topic and your familiarity with the library, you may need to rearrange or recycle these steps.
Steps of Research: The 7 Steps of Research
The following seven steps outline a simple and effective strategy for finding information for a research paper and documenting the sources you find: Step 1: Identify and develop your topic. Step 2: Find background information. Step 3: Search the online catalog to find books. Step 4: Find articles (print ot electronic)
Research Guides: Seven Steps of the Research Process: Home
The following seven steps outline a simple and effective strategy for finding information for a research paper and documenting the sources you find. Depending on your topic and your familiarity with the library, you may need to rearrange or recycle these steps. Adapt this outline to your needs. Work from the general to the specific.
Overview of the Research Process
These ten steps in the research process can be subdivided into additional steps, and some of these steps will be the focus of the material covered in this book. We will only briefly review the first five steps—corresponding to the introduction and theory sections of a research paper—in this chapter; steps 6-10 will constitute the focus of ...
Basic Steps in the Research Process
Step 8: Proofread. The final step in the process is to proofread the paper you have created. Read through the text and check for any errors in spelling, grammar, and punctuation. Make sure the sources you used are cited properly. Make sure the message that you want to get across to the reader has been thoroughly stated.
The Research Process
The Research Process (The graphic shows 5 steps of the research process in a circle, around an icon of a computer. Inside the computer it says Research Is a Process.) Pace University Libraries logo. Research is not always a one-way process. It is iterative, which means you may need to reflect and repeat steps at certain points.
The Writing Process
Table of contents. Step 1: Prewriting. Step 2: Planning and outlining. Step 3: Writing a first draft. Step 4: Redrafting and revising. Step 5: Editing and proofreading. Other interesting articles. Frequently asked questions about the writing process.
How to Write a Research Paper
This interactive resource from Baylor University creates a suggested writing schedule based on how much time a student has to work on the assignment. "Research Paper Planner" (UCLA) UCLA's library offers this step-by-step guide to the research paper writing process, which also includes a suggested planning calendar.
8.1: The Seven Steps of the Research Process
8.1: The Seven Steps of the Research Process. The following seven steps outline a simple and effective strategy for finding information for a research paper and documenting the sources you find. Depending on your topic and your familiarity with the library, you may need to rearrange or recycle these steps. Adapt this outline to your needs.
Writing a Research Paper Introduction
Table of contents. Step 1: Introduce your topic. Step 2: Describe the background. Step 3: Establish your research problem. Step 4: Specify your objective (s) Step 5: Map out your paper. Research paper introduction examples. Frequently asked questions about the research paper introduction.
The Research Process
At this step of the research process, all data are supposed to be ready, so it is the right time to verify the hypotheses formulated in the research. ... It includes publishing a research paper or papers in journals, magazines, and newspapers or writing a book. The form of publication depends on the value which the research brings to the pool ...
What Are the Steps of the Research Process? (Plus Tips)
1. Identify the project topic. A successful research process often begins with a clearly defined intent for the research project. You can focus on a topic in nearly any field of study, as the research process broadly applies across all academic and professional fields. The more precisely you identify the topic for your research, the more ...
Anatomy of a research paper
Humans. Peer Review, Research. Writing* / standards. Writing, editing, and publishing the paper is the last step in the research process. The paper tells the story of the project from inception, through the data-collection process, statistical analysis, and discussion of the results. Novice authors often struggle with writing and often find ...
Understanding the Publishing Process
The publication process explained. The path to publication can be unsettling when you're unsure what's happening with your paper. Learn about staple journal workflows to see the detailed steps required for ensuring a rigorous and ethical publication. Your team has prepared the paper, written a cover letter and completed the submission form.
The critical steps for successful research: The research proposal and
Scientific publication is an organic process of planning, researching, drafting, revising, and updating the current knowledge for future perspectives. Writing a research paper is no easier than the research itself. The lectures of Day 2 of the workshop dealt with the basic elements and logistics of writing a scientific paper.
How to Conduct Research: Essential Strategies & Tips
How to conduct a study: 10 effective steps Completing academic papers involves a series of well-defined research process steps that guide you from the initial idea to the final presentation of your findings. Step 1: Make notes. Carefully review your selected resources and take detailed notes on useful information for your paper.
Figures at a glance
How many refugees are there around the world? At least 108.4 million people around the world have been forced to flee their homes. Among them are nearly 35.3 million refugees, around 41 per cent of whom are under the age of 18.. There are also millions of stateless people, who have been denied a nationality and lack access to basic rights such as education, health care, employment and freedom ...
A Beginner's Guide to Starting the Research Process
In some types of research, at this stage you might also have to develop a conceptual framework and testable hypotheses. >>See research question examples. Step 4: Create a research design. The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods ...
Daily Step Counts Before and After the COVID-19 Pandemic
The COVID-19 outbreak had a global impact on physical, mental, and social health. Data collected early in the pandemic suggested a general decline in step counts worldwide, 1 but factors contributing to reduced activity have not been identified. This study aimed to examine whether COVID-19 was associated with daily activity among All of Us (AOU) research program 2 participants.
Investigating the Writing Skills Alternative Assessment Strategies used
Assessment is the backbone of the learning-teaching process. Several studies have proven that assessment goes hand in hand with learning. Classroom assessment can be either traditionally of learning or formatively an ongoing process for learning. The current study explores the writing skills alternative assessment strategies used by Moroccan English for Specific Purposes (ESP) teachers in ...

Search Form

The Research Process

Identify a Research Problem

Review the Literature

Determine Research Question

Develop Research Methods

Collect & Analyze Data

Document the Work

Communicate Your Research

Refine/Expand, Pioneer

Key Steps in the Research Process - A Comprehensive Guide

Step 1: Identify and Develop Your Topic

Step 2: Conduct Preliminary Research

Step 3: Establish Your Research Question

Step 4: Develop a Research Plan

Step 5: Conduct the Research

Step 6: Analyze and Interpret Data

Step 7: Present the Findings

Sign up for more like this.

Research Process – Steps, Examples and Tips

Research Process

Research Process Steps

Identify the Research Question or Problem

Conduct a Literature Review

Formulate a Hypothesis or Research Objectives

Design a Research Plan and Methodology

Collect and Analyze Data

Interpret the Findings and Draw Conclusions

Communicate the Results

Review and Revise

Ethical Considerations

Dissemination and Application

Research Process Example

Applications of Research Process

Purpose of Research Process

Tips for Research Process

About the author

Muhammad Hassan

You may also like

Data Collection – Methods Types and Examples

Delimitations in Research – Types, Examples and...

Research Design – Types, Methods and Examples

Institutional Review Board – Application Sample...

Evaluating Research – Process, Examples and...

Research Questions – Types, Examples and Writing...

Research Process Steps: What they are + How To Follow

Research Process Steps

Step 1: Identify the Problem

Step 2: Evaluate the Literature

Step 3: Create Hypotheses

Step 4: The Research Design

Step 5: Describe Population

Step 6: Data Collection

Step 7: Data Analysis

Step 8: The Report-writing

MORE LIKE THIS

Trend Report: Guide for Market Dynamics & Strategic Analysis

Cannabis Industry Business Intelligence: Impact on Research

Top 10 Dynata Alternatives & Competitors

What Are My Employees Really Thinking? The Power of Open-ended Survey Analysis

Other categories

6 Stages of Research

Ask a Librarian

Purpose of this guide

Task Definition

Steps to Developing a Topic

Read your assignment and note any requirements.

Formulate a general idea.

Do some background research on your general idea.

Mind map it.

Ask Questions to focus on what interests you.

Write out your topic question & reread the assignment criteria.

Developing a Topic Tutorial

Margin Size

3.2: Overview of the Research Process

3 The research process

Paradigms of social research

Overview of the research process

Common mistakes in research

Share This Book