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Presentation Topics For Mechanical Engineering Students

This is a comprehensive list of the best presentation topics for Mechanical Engineering students and researchers. These presentation topics can be used for PowerPoint (PPT), paper presentations, conferences, webinars, seminars, workshops and group discussions. These latest & general topics can be used by students of BE, ME, B Tech, M Tech & mechanical engineering diploma students.

Latest mechanical engineering presentation topics

Artificially Engineered Material Composites

Table of Contents

Artificial Intelligence in Mechanical Engineering

Atomistic Characterization of Dislocation Nucleation and Fracture

Automated Highways

3D Solar cells

Acoustic parking system (APS)

Driverless Cars

Active Electrically Controlled Suspension

Beyond Conventional Mechanical Engineering

Adaptive Light pattern

Advanced Battery and Fuel Cell Development for Electric Vehicles

Adaptive air suspension

Advanced Airbags for more protection

Recent trends in Mechanical Engineering

Recent trends in emission control techniques for engines

Reusable Launch Vehicles

Risks of Nano Engineered Particles

Water Powered Cars

Wireless factories

Alphabetical List of topics

3 Axis Digital Accelerometer

4 Stroke Engines

4-Wheel Independent Suspension

6 stroke engine

Ablative Materials

Abrasive Blast Cleaning

Abrasive Etching

Accelerometer

Acoustic finite elements

Active Control of Near-Wall Turbulent Flow

Active Decoy Systems

Active Front Lighting System

Active roll-over protection system in Automobiles

Adaptive compensation of DTV induced brake judder

Adaptive Cruise Control

Advanced Composite Materials

Advanced Cooling Systems

Advanced Energy Conversion Systems

Advanced Ferryboat Technologies

Advanced Fluid Transport Machinery

Advanced Materials in Automobiles

Advanced offset printing

Advanced Propulsion Methods

Advanced Rocket Motors

Advanced safety features in nuclear reactors

Advances in cutting tool technology

Advances in energy generation

Advances in Gas Turbine

Aerocapture (to reduce the velocity of a spacecraft Aerodonetics)

The aerodynamic design of the wind turbine

Aerodynamics

Aerospace Flywheel Development

Aerospace Propulsion

Aerospike engine

Aerothermal Engineering

Agile manufacturing

Air Augmented Rocket

Air Casters

Air Cushion Vehicles

Air Monitoring

Air pollution from marine shipping

Air Powered Car

Air suspension system

Airbus A380

Aircraft design

Aircraft Egress

Alternate fuels

Aircraft Maneuverability

Aircraft navigation System

Aircraft Propeller

Airport management

All wing Technology

Alternate refrigerants (Non-CFCs Refrigerators)

Alternative Fuel for Vehicles

Alternatives to the current Parking System

Aluminum Alloy Conductors

Alternate Sources of Energy

Analysis and Design Methods of Distributed Sensor

Anti-lock braking system (ABS System)

Antimatter bomb

Antimatter engine

Antimatter propulsion

Antimatter: Mirror of the Universe

Antiroll suspension system

Apache helicopters

Applied Mechanics

ArcJet Rocket (arc jet engine)

Aspheric lenses

Atkinson cycle engine

Automated guided vehicles (using GPS for automobiles)

Automated guided vehicles (without GPS for automobiles)

Automatic sprinkler system

Automatic transmissions

Automation in automobiles

Automation in building agricultural

Automation in building construction

Automobile Air Conditioning

Automobile design: Challenges

Automobile Engineering

Automotive Infotainment

Automotive Mechanics

Autonomous Submarines

Babbitt metal

Ball Piston machines

Ballistic Particle Manufacturing

Ballistic Missile Defense

Best Alternatives to Petrol & Diesel

Battery Electric Vehicle

Bearing Life Measurements

Benchtop wind tunnels

BigDog: The Most Advanced Quadruped Robot on Earth

Bio Mimetic Robots

Bio Robotics

Bio-degradable polymers

Bio-ethanol As Fuel

Biofiltration

Bio-fuels for automobile propulsion

Biological and synthetic materials

Biologically inspired robots

Biomass Fuelled Power Plant

Biomechanics

Biomechatronic Hand

Biomimetics

Bioplastic (100% Organic Plastic)

Bioreactors

Blasting cap

Blended Winged Aircraft

Biometrics: An Unparalleled Security Check System

Boosting Gas Turbine Energy Efficiency

Borewell Rescue Robots

Bose suspension system

Brake Assisting Systems

Brake booster

Breakthroughs in Engine Efficiency

Butterfly valvecatalytic converter

CAD/CAM software packages used in Mechanical Engineering

Camless Engines

Camless engine with the electromechanical valve actuator

Can a ship fly?

Carbon nanotube cloths

Carbon Nanotubes

Car Without Driver

Carbonfibre On F1 Cars

Cargo storage in space

Cell Integration Into A Manufacturing System

Ceramic fasteners

Ceramic-Like Coatings

Clearance of Space Debris

Closed cable-carrier chains for applications exposed to dirt or flying sparks

CNG (Compressed natural gas )

CNG Cars (CNG: Compresses Natural Gas)

Coastal Water Energy System using the Georotor device

Cold or Contact Welding

Collision warning system

Color Tinted Electropolished Surfaces

Combustion Research

Common Rail Direct Injection (Crdi) Engines

Composite materials for aerospace applications

Compound Vortex Controlled Combustion(44)

Compressed Air Energy Storage (CAES)

Compression Tube fittings

Computational fluid dynamics (CFD)

Computational fluid dynamics (CFD) In Weather Forecasting

Computer-Aided Designs (CAD)

Computer-Aided Geometric Design (CAGD)

Computer-Aided Manufacturing (CAM)

Computer-Aided Process Planning (CAPP)

Computer Graphics & Solid Modelling

Computer numerical control for Machine tools

Computer-aided engineering (CAE)

Concept Cars

Concurrent Engineering

Condenser Bushing

Conditional monitoring & fault Diagnosis

The contactless energy transfer system

Contaminant Removal from Soils by Electric Fields

Continuously Variable Transmission

Control of Point of Operation Hazards

Cooling and Lubrication of Engines

Cordless Tools

Corrosion-resistant gearbox

Corrugated Metals

Cruise Missile Technology

Cryogenic Ball Valves

Cryogenic Grinding

Crystalline Silicon Solar Cells

Cushioning Impact in Pneumatic Cylinder

CVCC (Compound Vortex Controlled Combustion)

CVT (Continuously variable transmission)

Cylinder Deactivation

Darkroom machining

Data Fusion for Quality Improvements

Design of an active car chassis frame incorporating magneto rheological fluid

Design, Analysis, Fabrication And Testing of A Composite Leaf Spring

Diamond Cutting Tool And Coatings

Diesel Mechanics

Diesel Particulate Filter

Diffusion Flame Shapes And Thin Filament Diagnostics

Diffusion Welding

Digital manufacturing

Dimple plate heat exchangers

Direct Hydrocarbons For Fuel Cells

Direct Manufacturing

Direct Methanol Fuel Cell

Direct Reduction Iron

DIS (Driver information system)

DNA-based nanomechanical devices

Double-wishbone suspension

Drag Racing

Drive-By-Wire Systems

Driverless Car

Dry ice blast cleaning in food processing industries

Dry Ice Blasting

DSG (Direct shift gearbox)

DTSi (Digital Twin Spark Ignition)

Dual Clutch Transmission

Ductless Induction Ventilation System

Durability in Design

Durable Prototyping

DurAtomic Process

Dynamic Ride Control (DRC)

Dynamic shift program (DSP)

Dynamics of Cutting Viscoelastic Materials

E85Amoeba Organization

Eco-Friendly Fuels

Eco-Friendly Gadgets

Eco-Friendly Home Appliances

Eco-Friendly Vehicles

Eco-Friendly Surface Treatments

Eco-Friendly Technologies

Eco-friendly Water Fuel in Mechanical Engineering

Economical E-Beams

Eddy Current Non-Destructive Testing

Elasto-Capillary Thinning and the Breakup of Complex Fluids

Elecro Hydraulic Sawmills

Electro Magnetic Flowmeters

Elecro magnetic Valves

Electric Automobiles

Electric Cars Concept

Electric Cylinders

Electric power steering units

Electric Rocket Engine

Electricity From Ocean Waves

Electrochemical Machining (ECM) & EBM~

Electrochemistry in material science

Electrokinetic pumping

Electrolytic Hydrogen: A Future Technology for Energy Storage

Electromagnetic Bomb

Electromagnetic Brakes

Electromagnetic Clutches

Electromagnetic Fields and Waves

Electron-beam Machining

Electronic Road Pricing System

Electronic Stability Control/program

Electrostatic precipitator

Embedded Computing in Mechanical Systems

Emerging Technologies in Mechanical Engineering

Emission Control Techniques

Energy Conversion and Management

Energy-efficient turbo systems

Energy-saving motors

Energy transformation

Energy-absorbing bumpers

Engineering Applications of Nylon 66

Engineering for Renewable Energy Systems

Engineering Mathematics

Enhanced Geothermal Systems (EGS

Escapement mechanism

Exhaust Gas Recirculation

Exoskeleton for human performance augmentation

Experimental Fluid Mechanics

Expert Technician System

Explosive Welding

Extra-Galactic Astronomy

F1 Track Design And Safety

FADEC – Full Authority Digital Engine Control

Failure mode evaluation and criticality analysis

Fast breeder reactor technology

FEA in Manufacturing

Finite Element Analysis

Finite element analysis (FEA)

Finite element method (FEM)

Fischer Trophs Process for manufacturing of synthetic fuels

Flapping wing aircrafts

Flexible Manufacturing Systems

Flexible shafts for power transmission

Floating Power Stations~

Floating Windmills

Fluid machinery mand measurement techniques

Fluid Mechanics and Machines

Fluidised Bed Combustion

Flyash Utilisation

Flying on Water

Flywheel Batteries

FMS (Flexible Manufacturing Systems)

Forge Welding

Formula 1 cars: Aerodynamics, Steering Wheel, Safety, Engines

Foundry and Production Technology

Fourth Generation of Biofuels

Fractal Robot

Free Electron Laser

Free Form Modelling Based on N-Sided Surfaces

Freeform Manufacturing

Friction Welding

Frictionless Compressor Technology

Fuel Cell Airplane

Fuel cell-powered Go-Karts

Fuel Cells On Aerospace

Fuel Energizer

Fuels from Plastic Wastes

Full Colour 3D Modelling Using Rapid Prototyping

Functional Nanocrystalline Ceramics

Fused Deposition Modelling

Fusible plug

Future Automobiles

Future Cars

Future of Automobiles

Future of Geothermal Energy

Future of Mechanical Engineering

Future of Portable Power

Fuzzy logic in Aircraft stability

Gaketted Plate Heat Exchnager

Gas Transfer Systems

Gaseous Pyrolysis

Generative Part Structural Analysis

Geo Thermal Energy

Geo-Thermal Energy(19)

Geothermal Power

Glass Making

Global Positioning System~

Globe valves

Green engine

Green Factory

Green fuels

Green Manufacturing

Guided Missile

Guided Missiles

Guyson ultrasonic cleaning machines

HalBach array

Handheld Radiation detector

HANS-In F1 Racing

Harvesting Wave power

Heat Engines and Steam Turbines

Heavy duty Gasoline engines

Helicopters

HHO Hydrogen Fuel Cell

High Altitude Aeronautical Platforms

High angle of attack aerodynamics

High Efficiency Heat Exchanger

High Speed Precise Gear Boxes

High speed Propellers

High speed Railway coaches

HIgh Speed Sliding Doors

High Speed Trains

High speed trains to existing rail routes

High Tides & Low Tides to produce energy

Highly Productive And Reconfigurable Manufacturing System(Hiparms)

High-Temperature Nuclear Reactors for Space Applications

High-volume aluminium pipe system for larger vacuum applications

High-Wire car

Homogeneous charge compression ignition engine

Hovercrafts

Human Artificial organs

Human Powered Vehicle Challenge (HPVC)

Humans and Energy

HVDC Transmission

Hybrid Bikes or Two Wheeler

Hybrid Cars

Hybrid Electric Vehicles

Hybrid energy Systems

Hybrid Synergy Drive

Hybrid vehicles

Hybrid Wind Electrolysis System

Hydraulic Elevators

Hydraulic railway recovery systems

Hydro Drive

Hydro Electricity

Hydro Jetting

Hydro statics

Hydro-Aerodynamic

Hydrodynamics and Heat transfer of Circulating Fluidised Beds

Hydroforming

Hydrogen (water) Powered vehicle

Hydrogen Car

Hydrogen Energy

Hydrogen Fuel Tank

Hydrogen Generation via Wind Power Electrolysis

Hydrogen Management in Refineries

Hydrogen Production using Nuclear Energy

Hydrogen Vehicle

Hydroplanning

Hypersonic Space Planes

HyperTech Engine

Hy-Wire Car

Ice Skating Rink System

Impact hammers

Improved efficiency of gas turbine

Improving aerodynamic performance of an aerospace vehicle

In Mould Lamination Technique

India and Mechanical Engineering

Industrial Cam Lift Hinges

Influence of an iron fuel additive on the performance and emissions of a DI diesel engine

Information Technology in Mechanical Engineering

Infrared Curing And Convection Curing

Injection Moulding

Injection Systems And Emission: Types

Inlet Conditions of An Air Compresor

Instrument Landing System

Intelligent cars

Intelligent Compact drives

Intelligent manufacturing

Intelligent Vehicles

Intelligent Vehicles and Automated Highways

Inter-Continental Ballistic Missile (ICBM)

Inverse Design of Thermal Systems

Ion Drive Engine

Iontophoresis

IT (Information Technology) in manufacturing

IT Application in Complex Syatem Analysis

IT in Mechanical Engineering

Italian Technological Marvels

Jelly Filled Telephone Cables

Jet Powered Boat

Jet Stream windmill

Jetex Engine

Jetropha based biodiesel

JIT (Just in Time)

Kalina cycle

Knowledge Based CAD for Technology Transfer

Laminated Object Manufacturing

Laod Sensing Hydraulics

Laser Material Deposition

Laser radar Guns

LASER Sintering

Laser-Based Remote Detection of Trace Explosives

Latest in hitech petrol fuel injection –GDI (Gasoline direct Injection)

Latest Suspension Systems

Latest Trends in Automotive Engg.& Technology

Lean Burn Spark Ignition Engine

Lean Burn Technology

Lean engineering

Lean to Steer Concept

Lenoir cycle

Light weight material-Carbon fibre

Lightweight Cars: Pros & Cons

Liquid Engineering

Liquid Hydrogen as an Aviation Fuel

Liquid Injection Thrust Vectoring (LITV)

LNG (Liquefied natural gas )

Logistics and supply chain management

Long Term Mine Reconnaissance System

Low Cost Spacecraft Simulator

Low emission gas turbine

Low Gloss ABS system

Low inertia dics clutches

LPG (Liquefied petroleum gas )

LPG as a Fuel (Liquefied Petroleum Gas)

LPG Vs CNG : Truth about Safety Issues

Machine tools vibration, Noise & condition monitoring

Machine vision

Macromolecular Hydrodynamics

Magnetic Bearing

Magnetic Launching

Magnetic Levitation

Magnetic Nanocoposites

Magnetic refrigeration

Magnetic Resonance Imaging

Magnetically driven micro-annular gear pump for metering applications

Magnetorheological Fluids

Magnox Nuclear Reactor

Maintenance Welding

Manufacturing Engineering

Manufacturing Processes

Manumatic transmissions

Marine electric propulsion

Mass airflow sensor

Mass customization: A strategic approach

Mass Rapid Transit System (MRTS)

Material science including Nano-science

Materials used in Space Re-entry Vehicles

Mechanical Behavior of Filament-Wound Pipes

Mechanical Parking System

Mechanical Testing

Mechanical torque limiters

Mechanosynthesis

Mechatronics

MEMS (Micro Electro Mechanical Systems) – a pollution free option for power generation

MEMS Packaging

Mesotechnology

Metal Nanoshells

Metallurgy & Quality Control

Metal-Matrix Composite Processing

Metamorphic Robots

MHD Submarine

Micro- and Nano-Mechanics of Surface Contact Plasticity

Micro Batteries

Micro Electro Mechanical Systems

Micro Fluidic Chips

Micro Gravity

Micro Heat Exchangers

Micro hydraulics

Micro Moulding

Micro Pumps

Micro scale regenerative Heat Exchanger

Micro Turbine

Microair Nozzles For Precision

Microbial Fuel Cells

Microengines for microprocessors

Micro-Epsilon laser profile scanner to inspect weld seams on steel pipes

Microfluidics

Microlithography

Micromachines

Micromanipulating Micromachines

Micromixers

Microprocessor Based IC Engines

Microprocessor based power theft identification

Microscale Breaking Waves And Air-Sea Gas Transfer

Micro-Scale Milling

Microtechnology

MicroTopography

Mileage Improvement Techniques

Miller Cycle Gas Engine

Modeling and simulation

Models Of Random Damage

Modern Air Pollution Control Technologies

Modern Centrifugal Compressors

Modern Manufacturing Processes

Modern Refrigeration Systems: Solar, Thermionic, Vortex Tube

Modified four stroke engine

Modular Cam Locks

Modular conveyor Belts

Modular Gear motor

Modular Workstations

Molecular Engineering

Molecular hinges

Molecular Manufacturing

Molecular nanotechnology

Molten oxide electrolysis

Monobloc pressure jet burner

Mordern Prototyping Methods

Motors Without Mechanical Transmissions

Moulds in Casting of Plastics and Thermoforming

Multi Valve Engine

MultiJack Bolt Tensioners

Multiple material milling platform

MV/HV water spary systems

Nano Electro Mechanical Systems(NEMS)

Nano in navy

Nano Robotic Manipulation System

Nano Robotics

Nano- Robotics and Bio- Robotics

Nano Spreader Cooling

Nanobatteries

Nanocrystalline Thin-Film Si Solar Cells

Nanomaterial

Nanomaterial Based Catalyst

Nanorobotics

Nanoscale Armor

Nanoscale Fractals

Nanotechnology

Nanotechnology & Mechanical Engineering

Nanoventions Micro-optic Modeling

Natural Gas Vehicles (NGV’s)

Negative Pressure Supercharging

New Age Tyres

New Finite Element Analysis for Unsteady 3D Natural Convection

New Level of Nano Precision

New rolling technique for texturing

New Rolling Techniques

New trends in Automobile Design

Night Vision

Non Conventional Methods of Machining

Non Destructive Evaluation Techniques

Non-conventional Energy Sources

Non-Destructive Testing

Nono Fluidics

Nuclear fuel reprocessing

Nuclear Power Potential as Major Energy Source

Nuclear Waste Management

Ocean Thermal Energy

Oil Depletion in the World

Oil Shear brakes

Oil well drilling

Optical trapping and manipulation of small particles

Optimisation of Mechanical Systems

Opto-Electronic Sensor System

Orbit Forming

Orbital Welding

Orbital/Space Mechanics

Organic Plastics

Over-the-wing Engine mount configration

Parallel kinematic machines: Exechon technology

Particle Reinforced Aluminium Matrix Composites

Pasteurization

PDM : Product data management

Pendolina system for railway passenger comfort

Performance Analysis of Manufacturing Systems

Perpetual Motion Machines

Personal Transporters

Photomechanics

Photonic Crystals

Piezoelectric Actuators

Pint Sized Power Plants

Piston less dual chamber rocket fuel pump

Pistonless rocket Engine

Planetary Sciences

Plasma Arc welding

Plasma Science

Plastic recycling

Plastic Welding

PLM: Product lifecycle management

Plug-In-Hybrid Cars

Pneumatic forming

Pneumatics Control Systems

PNG (Piped Natural Gas)

Polymer Nanocomposites

Polymers castings

Porous Burner Technology

Portable biomass stove

Portable Power

Portable X-Ray Fluorescence Analyser

Power frequency magnetic fields

Power From Space For Use On Earth

Power System Contingencies

Powered Industrial Trucks

Practical Fuel-Cell Vehicles

Precision Engineering and practice

Precision manufacturing and Inspection

Prediction of Creep Failure using FEA

Predictive Engineering

Pressure Sensitive Paint

Probabilistic design of mechanical components

Process Automation Techniques

Process Modeling And Simulation

Programmable keyless entry

Progressive Cavity Pump

Propulsion Subsystems

Protection of Communication systems from Solar Flares

Pulsed Plasma Thruster

Pump Noise level reduction methods

Quality Function Deployment

Quantum Chromodynamics

Quantum Mechanics / Quantum Physics

Quick-release terminals for testing or calibration

Radar Guns and Laser radar Guns

Random vibrations

Rapid Design for Lean Manufacturing

Rapid Injection Moulding

Rapid Re-Usable Tooling

Reaction Engineering

Recent Advances in Statistical Quality Control

Recent trends in engine development

Recent trends in manufacturing

Recent Trends in Quality Management

Reduction Technology

Re-Entry of Space Vehicle

Refined IC Engines

Refrigerant circuit with electronic expansion valve metering device

Refrigeration and Air Conditioning

Regenerative brake

Regenerative Fuel Cells

Relativistic quantum field theory (RQFT).

Reliability and risk analysis

Renewable Energy Systems

Renewable Fuel Standard (RFS)

Renewable sugarcane jet fuel

Research Aircrafts

Research and Materials of Armor Design

Resistojet Rocket

Responsive manufacturing

Reverse Engineering

Reverse Engineering in India

Reverse Engineering Worldwide

Rigid Body Dynamics

Ring Gear Maintenance

Risk Analysis of Running Steam Turbines Above Rated Speeds

Robot driven cars

Robotic Assistants For Aircraft Inspectors

Robotic Pioneering

Robotic roller coasters

Robotic Vision

Robotics & AI

Robotics & Automation

Robotics & Industrial Automation

Robotics for Home Applications

Robotics For Millitary Applications

Robots In Radioactive Environments

Rock Mechanics

Rocket Booster Systems

Rocket Powered Aircraft

Roller Pumps

Rotating Parallel Grippers

Rotating Scroll Power Compressor

Rubber Products by Calendaring

Safety And Environment

Safety aspects in nuclear reactor

Safety features of railway rolling stock

Scramjet engine

Screw Fastenings

Scuderi Split Cycle Engine

Seal-less pumps for glue-containing particulates

Secure User Authentication Using Automated Biometrics

Sediment Transport at Hydraulic Jumps

Selective Catalytic Reduction (SCR)

Selective Plating

Self Aware Robots

Self Extinguishing PVC’s

Self Healing Space crafts

Self Monitoring Pneumatic systems

Self Repairing Composites

Self Secured Joints

Self-Assembly For Nano And Micro Manufacturing

Semi automatic transmission

Semi solid Casting

Semi-synthetic cutting fluids

Sensotronic Brake Control System

Sensotronic Braking System

Shape Memory Alloys

Shock Response Spectrum

Simple Constitutive Models for Linear and Branched Polymers

Single Crystal Turbine Aerofoil

Six stroke engines

Sixth sense technology

Skid Steer Loader And Multiterrain Loader

Small Satellites

Smart aerospace structures

Smart Ammunitions

Smart Autoreeling mechanism

Smart Bombs

Smart combustors

Smart Material

Smart material actuators

Smart Materials

Smart Pnuematics

Snake robots

Snaps to Replace Screws

Soft lithography

Solar Cells and Solar Cell Modules

Solar Energy

Solar Energy: Rapidly Evolving Technologies

Solar gadgets

Solar Heat Energy Storage in Phase Change Materials

Solar Ponds

Solar Power Satellite

Solar power Tower

Solar Powered Refrigerator

Solid Base Curing

Solid carbide end mills

Solid –Liquid Separation Technology(73)

Space Craft Propulsion

Space Engineering

Space Robotics

Space Shuttle

Space Shuttle Boosters

Space Shuttle Semisolid Casting

Space Shuttles And Its Advancements

Space stations

Spark Sintering

Special materials for high temperature applications

Special materials for ultra-low temperature applications

Sports Plane

Stealth Radar

Stealth Technology

Steam Sparging

Steer- By -Wire

Stereolithography

Stereoscopic Projection Systems

stratified charge engine

Stress-strain curve & Structural failure

SunGas: Renewable Thermochemical Fuels

Super Air Nozzles

Super Charging

Super Flat Nano Films

Supercase Hardening process

Supercavitation

Superconducting Rotating Machines

Surface Engineering

Sustainable Energy

Sustainable Engineering

Symmetrical All Wheel Drive

Synthetic Aperature Radar

System Identification and Adaptive Control

Systems for Manufacturing Quality Improvement

Systems Modeling and Simulation

Technology-Based Entrepreneurship

Telescopic Lip Dock Levellers

Temperature Resistant Alloys

Tension Control Brake

Test Ranges / Facilities/Readiness

Testing of Welds

The Atomic Battery

The Engineering Research Role in Environmental Noise Control

The Hy-Wire Car

The Truth about Water Powered Cars

Theory of Machines

Thermal Barrier Coatings

Thermal Biomass

Thermal Energy Storage

Thermal Engineering

Thermal Platic Composities

Thermic Turbo Machinery

Thermo Acoustic Refrigeration

Thermo Fluid Mechanics

Thermo Hygrometer

Thermoacoustic refrigerator

Thermodynamics

Thermostatic Refrigerator

Therrmophoresis

Thin Flexible Solar Cells

Thin Vacuum Conveyors

Threadless Couplings

Tidal technology

Tip Tronic Gear transmission

Tire & wheel without pneumatics

Tool Management System

Tool Management System(32)

Topographic Characterization and Modeling of the Precision Surface

Topology Optimization

Total Productive Maintenance

Touch trigger probes

Traction control

Transfer Machines

Transonic aircraft

Trenchless Technology

Trends in welding

Triptronic Automatic Gear Transmission

Tube Hydroforming

Tubeless Tyre

Turbofan Engines

Turbomachines

Two Stage Fuel Injection System

Types of Cars

Types of Engines

Types of Fuels

Tyre ReTreading

Tyre Threading

Ultra Nano Crystallline Diamond

Ultrasonic dispersal of nanomaterials for paints and coatings

Ultrasonic NDE and Characterization of Aerospace Materials

Ultrasonics and Acousto-Optics for the Nondestructive Testing of Complex Materials

Underwater Cars

Underwater Welding

Underwater wind mill

Unmanned Mine Spotter

Use of GPS in automobiles

Use of Mobile Devices in Mechanical Engineering

Use of piezoelectric wafer active sensors for damage identification in aging aircraft structures

Use of space energy for human welfare

Use of Space Technology for Human Welfare

Vacuum Heat Treatment of Materials

Vacuum Work holding

Valvetronic Engine Technology

VANOS (Variable Nockenwellen Steuerung)

Vapor Recovery Systems

Variable compression ratio engine

Variable Flow Pumping

Variable Speed Drives

Variable timing Valve Trains (VTVT)

Variable Valve Timing In I.C. Engines

Vector Calculus

Vertical Axis Wind Turbines

Vertical Landing and takeoff engine

Vertical takeoff and landing aircrafts

Vibration control Techniques

Vibration Tester

vibration-testing technology

Vibro-acoustic modal analysis

Virtual Prototyping

Virtual Reality Visualisation

Viscoelastic behavior of engineering materials

Vision Systems for Safe Driving

Visualization and Computer-Aided Design

Water Fueled Cars

Water jet cutting technology

Water Rocket

Wave Springs

Weapon Engineering / Design

Weber carburetors

Weld flaw detectors

Welding Robots

Wind diesel System

Wind Energy

Wind engineering

Wind From The Sun-Power Plant

Wind turbine with doubly-fed induction generator

Wind-Powered Barbeque Technology

Wireless Energy Transmission

Work Zone Safety

Written-Pole Technology

Zero-Energy Homes

This is all about the best and latest Presentation Topics For Mechanical Engineering Students for power-point as well as Google slides presentations.

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How to Select Mechanical Engineering Research Topics?

Table of Contents

Selecting the right mechanical engineering research topics is crucial for driving impactful innovation and addressing pressing challenges. Here’s a step-by-step guide to help you choose the best research topics:

Identify Your Interests: Start by considering your passions and areas of expertise within mechanical engineering. What topics excite you the most? Choosing a subject that aligns with your interests will keep you motivated throughout the research process.
Assess Current Trends: Stay updated on the latest developments and trends in mechanical engineering. Look for emerging technologies, pressing industry challenges, and areas with significant research gaps. These trends can guide you towards relevant and timely research topics.
Conduct Literature Review: Dive into existing literature and research papers within your field of interest. Identify gaps in knowledge, unanswered questions, or areas that warrant further investigation. Building upon existing research can lead to more impactful contributions to the field.
Consider Practical Applications: Evaluate the practical implications of potential research topics. How will your research address real-world problems or benefit society? Choosing topics with tangible applications can increase the relevance and impact of your research outcomes.
Consult with Advisors and Peers: Seek guidance from experienced mentors, advisors, or peers in the field of mechanical engineering. Discuss your research interests and potential topics with them to gain valuable insights and feedback. Their expertise can help you refine your ideas and select the most promising topics.
Define Research Objectives: Clearly define the objectives and scope of your research. What specific questions do you aim to answer or problems do you intend to solve? Establishing clear research goals will guide your topic selection process and keep your project focused.
Consider Resources and Constraints: Take into account the resources, expertise, and time available for your research. Choose topics that are feasible within your constraints and align with your available resources. Balancing ambition with practicality is essential for successful research endeavors.
Brainstorm and Narrow Down Options: Generate a list of potential research topics through brainstorming and exploration. Narrow down your options based on criteria such as relevance, feasibility, and alignment with your interests and goals. Choose the most promising topics that offer ample opportunities for exploration and discovery.
Seek Feedback and Refinement: Once you’ve identified potential research topics, seek feedback from colleagues, advisors, or experts in the field. Refine your ideas based on their input and suggestions. Iteratively refining your topic selection process will lead to a more robust and well-defined research proposal.
Stay Flexible and Open-Minded: Remain open to new ideas and opportunities as you progress through the research process. Be willing to adjust your research topic or direction based on new insights, challenges, or discoveries. Flexibility and adaptability are key qualities for successful research endeavors in mechanical engineering.

By following these steps and considering various factors, you can effectively select mechanical engineering research topics that align with your interests, goals, and the needs of the field.

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Engineering is considered a complex field. Due to this reason, authorities plan presentations for the progressive learning of students. It is suggested to decide good presentation topics for engineering students. A pre-decided topic can help improve confidence and develop enriched understanding. Moreover, students can pre-practice and keep track of their presentation time and progress.

Presentations are a way to research and learn from a topic. Good topic, content, and delivery are essential to communicate ideas better. In this article, we will discuss paper presentation topics for engineering students . In addition to making a PPT presentation, we'll learn about an AI tool for this purpose.

Part 1: Keys for a Good Engineering Presentation

For an impactful presentation, the right content and graphical displays are required. To prepare a top-notch presentation, one requires a lot of time and expertise. Along with the engineering topic for presentation, other factors contribute to its success. Some of the most prominent key factors for a good presentation are discussed below:

1. Try to Keep it Brief with Data

A common mistake to avoid while preparing a presentation slide is overfilling text. Engineers should keep presentation slides content informative yet brief. People get bored with complex wording and lengthy content. It is suggested to use eye-catching slides that include bullet points.

The addition of bullet points and readable fonts puts the audience at ease. Moreover, you must avoid slang, jargon, and complex terms that can confuse the audience. Another way to achieve the audience's interest is by inserting colorful illustrations in slides.

2. Know Your Audience and the Potential Questions

Before presenting, get to know about your potential audience and their expertise level. It will be helpful in a successful presentation. You can quote relevant examples by knowing the audience's knowledge level and interests. Moreover, it enables you to memorize relevant terminologies and expected questions.

This will enhance your credibility as a presenter and maintain the audience's attention. However, due to interest, your audience will listen to the presentation with attention. Knowing potential questions enables you to create backup slides and enhance confidence.

3. Choose an Interesting Template

Slides are short notes to keep the audience attentive toward the presented topic. A visually appealing slide template is essential to engage them in the presentation. For engineering students, use a template that contains attractive infographics for statistical data. Moreover, use a template that offers complete customization options according to your choices.

In addition, a relative appearance, trending graphics, and layouts make a template unique. Despite the attractive nature of the template, it should be easy to edit to save time.

4. Enhanced Visual Effects

Compelling visual aids grab the audience's attention in seconds. These include transitions and animation in most parts. Engineering students can add icons, symbols, diagrams, and equations. Format your presentation in readable fonts and color palettes. Plus, organize your content according to the topic hierarchy.

Visualize your data through video presentation or 3D animated models. For example, you can make a 3D model of a turbine gas engine for power generation. By visualizing that motor model, you can communicate ideas well.

5. Correct Body Language and Eye Contact

Non-verbal communication is another way to express ideas impactfully. It includes eye contact, hand movements, and facial expressions. Maintaining eye contact while presenting keeps your audience attentive to the concepts.

Keep yourself confident and relaxed through body posture to not forget any information. Lastly, take short pauses while presenting, and take your time while delivering content. Plus, only stare at someone briefly and try to move your face toward the entire audience.

6. Rehearse

Remember that famous quote, "Practice makes a man perfect.” Rehearsal enhances confidence and helps argument effectively. Engineering students are advised to rehearse in front of their friends and teammates. Try to get positive and constructive feedback for positive improvements.

Moreover, while rehearsing, keep track of time and practice managing topics accordingly. Afterward, practice tone of delivery and clear pronoun cation of technical terms . Furthermore, preview slides during rehearsal and clear technical glitches, if any.

Part 2: Best 10 Topics for Engineering Students

Research and presentation play an essential role in engineering students' curriculum. Students have to present in seminars, classrooms, exhibitions, and webinars. Selecting PPT topics for engineering students is a time-consuming concern. After in-depth research, we have summarized the top 10 topics for engineering students. Read below to explore paper presentation topics for engineering students:

1. Medical Uses of Nanotechnology

Nanotechnology can revolutionize treatment, diagnosis, and imaging in the medical field. Nano-particles are engineered to inject drugs directly into the targeted human body. It can rectify risks and side effects. Moreover, nanotechnology enables drug screening, cancer treatment, and many more.

2. Turning Plastic Bags into High-Tech Materials

Environmental problems are dominating every region and becoming hazardous to all life forms. These issues can be addressed through mechanical engineering. The process involves meltdown, extrude, and transformation of plastic into other useful materials.

With chemical engineering, engineers can transform plastic bag particles into molecules. Moreover, you can utilize nanotechnology, polymerization, and molecular structure.

3. Money Pad Future Wallet

An advanced version of the digital wallet is the money pad future wallet. You can discuss biometric data security, hardware designs, contactless sharing, and recipient tracking. Future trends or advancements with machine learning and AI can be explored.

4. 6G Wireless Technology

In regards to cellular networks, 6G wireless technology can be discovered. This technology is yet under development. Engineers are trying to transfer data through waves in GHz and THz. With the support of AI, 6G can improve virtual communication and works up to the speed of 1 Terabit/second.

5. Night Vision Technology

Glasses of night vision technology use thermal imaging that captures infrared light. It enables you to see in dark areas. You can discuss the basic functions, engineering contributions, and night vision devices. Furthermore, future developments and ethical considerations can also be highlighted.

6. Air Pollution Monitor

Certain underdeveloped areas of the globe are facing serious health concerns. Poor air quality index is causing those issues. An air pollution monitor can detect chemical particles and gases. Developing a low-cost air pollution detector can contribute to sustainability.

7. ATM With an Eye

With facial recognition technology, ATMs can match customer's faces with available records. It enhances banks' security systems and minimizes risk caused by stolen ATM PINs. In your presentation, you can discuss future implications and development of this software.

8. Bluetooth-Based Smart Sensor Networks

Discuss how smart sensors input small devices to communicate in your presentation. Moreover, you can highlight its components and implications. Plus, advantages can be discussed that include agriculture and health fields.

9. Energy-Efficient Turbo Systems

Introduce energy-efficient turbo with machines and engines. You can focus on energy costs and resource utilization. In addition, its efficacy in vehicles and energy consumption can be discussed. Afterward, put real-life examples and challenges to turbo systems.

10. Laser Communication Systems

Laser beams are used to transmit data and replace traditional methods. Define laser communication systems and explain how they operate. You can introduce its applications, like underwater and military communication. Conclude your presentation with the latest trends and challenges.

Part 3: Presentory for Your Simple and Interesting Engineering Presentation

Along with the exciting topic, PowerPoint slides matter equally. To grab the audience's attention with impactful presentations, AI tools have proven effective. Wondershare Presentory is a solution for many engineering students. This tool can make PowerPoint presentations, record videos, and stream them online. It has built-in AI and editing features, including visual aids and stunning templates.

This AI operates on cloud tech that allows users the freedom to collaborate online. Apart from this, you can add, remove, or replace video backgrounds. Among those include a dressing room, conference room and cityscapes. Also, you can add stickers and text effects from resources.

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Key Features

Import From Multiple Sources: It lets you import any type of media, like images, PPTs, videos, or more. You can edit the already available simple PowerPoint presentation by importing it.
Various Types of Font Resources: Along with other graphical features, it offers font styles. The users can have access to multi-lingual fonts. You can change the transparency or opacity of fonts as required.
Beautification Effects: This tool can record or stream videos on popular platforms. It can change filters, add AR effects, and beautify your face. In presentation videos, your face will be clear and automatically enhanced.
Background Remover: You don't have to rush about a messy background. It can change the background and focus on a portrait image of you. With its AI built-in, your background gets automatically subtracted. Afterward, you can pick any color of your choice as a background.
Stream or Broadcast: This AI tool also allows you to record and present a video. You can stream online at Google Meets, Zoom, and many more. This makes conferences and live broadcasts easy for engineering students.
DIY Teleprompter: Surprisingly, you can change the window size of your presentation screen. With this AI tool's teleprompter, you can write a script on screen as notes. Plus, you can adjust those notes' size, font, and color. You can scroll or play teleprompter notes without getting caught by camera.
Noise Reduction: This AI tool can automatically reduce the background voices from videos. Whether you are recording or broadcasting online, it can assist in both. Its AI-supported technology detects, diminishes, and enhances original voice in high quality.
Transition and Animation Effects: Lastly, it can add transition effects to your PowerPoint presentation. It contains a variety of transition resources that make slides attractive. Furthermore, you can add animation effects and set action to available elements.

As we have seen, selecting presentation topics for engineering students is essential. During the presentation, graphical communication of content is as important as physical or verbal. There are many AI tools for such purposes, but the one we suggest is Wondershare Presentory. With its AI integration, users can create presentations on complex topics like engineering. Moreover, this tool always has room for manual editing or customization.

A Comprehensive Guide to Mechanical Engineering Presentations

Mechanical Engineering

Welcome to our easy-to-follow guide on creating impactful mechanical engineering presentations.

Whether you’re a student or a professional in the field, this guide is here to help you present technical information clearly and confidently.

We’ll start by explaining why it’s crucial to know your audience and adjust your talk to fit their knowledge level.

Then, we’ll share effective ways to organize your presentation to grab and hold attention, including how to make slides that are both eye-catching and full of useful information.

You’ll also learn the best way to speak confidently and handle any questions from the audience smoothly.

Our goal is for you to be able to share your ideas and findings in a way that is interesting and convincing.

Understanding Your Audience

When you’re getting ready to give a talk on mechanical engineering, it’s really important to think about who will be listening. For example, if your audience knows a lot about different areas of engineering, you’ll want to explain things differently than if they were all experts in how fluids move or how heat works.

You want to make sure your talk is just right—not too simple or too complex—so that people stay interested and aren’t confused. It’s crucial to be clear and use words that precisely describe what you mean without being confusing. Use pictures or charts to help tell your story and make sure they’re easy to see and understand.

When you’re speaking, try to fill in any knowledge that your audience might be missing so they can fully grasp what you’re saying. For instance, if you’re talking about a new pump design, don’t just throw out technical terms. Instead, say something like, ‘This new pump design can move water much faster because it has a more efficient blade shape, similar to how a ceiling fan with curved blades moves air more effectively.’ This way, you’re giving a specific example that’s easy to visualize, which helps your audience understand the benefit of the design.

Always check that your words and pictures are spot on and that you’re writing like you’re having a conversation with someone. Your goal is to give a rich, detailed talk that everyone in your audience can learn from.

Structuring Your Presentation

Start your engineering talk by explaining its goal and what you’ll discuss. This helps your listeners follow along and understand the information better. Open with an engaging introduction that explains why the topic matters. If needed, include a section on previous research to lay the groundwork for your points.

Make the main part of your talk about important themes or discoveries, using numbers and studies to back up what you’re saying. Design each slide to stand on its own and add to the story you’re telling. End by going over the key points and suggesting ideas for further study or how the work can be used. Make sure to leave time for questions and talks.

Designing Effective Slides

Creating good slides is very important for explaining complex ideas in mechanical engineering in a clear and brief way.

When you make slides, pick a straightforward, professional-looking template that doesn’t take away from what you’re trying to say. Use text and background colors that stand out against each other so people can read your slides from far away.

Keep your text short and to the point, using key phrases and bullet points, because too much text can be too much for your audience. Add clear diagrams, schematics, or simulations that show mechanical processes or parts; make sure these images are clear and accurately labeled.

When you show data, use graphs or charts that are easy to understand, with a clear legend and the right scale. Keep your font size, style, and how your slides change the same throughout to make your presentation smooth.

Double-check that all your technical details are correct and try to give a lot of information without making your slides too busy.

Delivering With Confidence

A mechanical engineer’s delivery should exude confidence, as it reinforces the credibility of the presentation and engages the audience effectively.

To project this assurance, the engineer must be well-versed in the subject matter, demonstrating technical proficiency throughout the discourse. Mastery of the topic facilitates a clear and articulate explanation of complex concepts, ensuring that the details are communicated with precision.

It is imperative that the presenter practices the material extensively, which not only hones the delivery but also prepares them for potential inquiries, allowing for detailed responses delivered with authority.

Utilizing a steady pace and maintaining eye contact can further convey a sense of confidence, making the information presented not just understood but respected.

Handling Questions Skillfully

While delivering with confidence is crucial, adeptly handling audience questions is equally important in demonstrating a mechanical engineer’s expertise during a presentation.

When approached with inquiries, it is imperative to listen attentively, ensuring that the question is fully understood before formulating a response. This not only shows respect for the individual’s query but also allows for a precise and tailored answer.

Engineers should aim to communicate their responses with clear, unambiguous language, avoiding overly technical jargon unless it is audience-appropriate.

Furthermore, when a question falls outside the presenter’s scope of knowledge, it is vital to acknowledge this candidly, offering to follow up with additional information post-presentation if possible. Such an approach maintains credibility and fosters an environment of professional integrity.

For a mechanical engineering presentation to be effective, it’s essential to know who you’re talking to and make your story easy to follow. This helps you connect with your audience and makes it easier for everyone to learn and grow professionally.

Creating slides that grab attention is also crucial. Well-designed visuals can enhance understanding and engage your audience.

Speaking with confidence is another important aspect. When you present with confidence, you convey credibility and expertise, which helps your audience trust the information you’re sharing.

Lastly, being good at answering questions is essential. Mechanical engineering concepts can be complex, and your audience may have inquiries. Being prepared and knowledgeable in your responses will further enhance your presentation’s effectiveness.

By getting these key elements right, even the toughest engineering ideas can be explained so everyone understands. It is through effective communication that professionals in mechanical engineering can thrive and succeed.

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In the News

poster presentation topics for mechanical engineering

The poster session goes virtual

Each fall, graduate students, undergraduate students who have completed Undergraduate Research Opportunities Program (UROP) projects, and postdocs gather to share their mechanical engineering research with the wider MIT community. They practice their presenting skills, explaining their research projects as attendees snake through rows of posters — a sight familiar to anyone who has attended a scientific conference.

As with most events and conferences, the Mechanical Engineering Research Exhibition (MERE) had to be held virtually this year. This presented the student organizers with a challenge: How could they help foster the discussions that happen organically as people physically walk through poster sessions in a virtual space?

“Our main goal was to recreate the poster presentation experience, with as much person-to-person interaction as possible,” says graduate student Crystal Owens, who was a co-organizer of the event.

MERE_2 1024.jpg

Early in the summer, when it became clear that MERE would have to be a virtual event, Owens and her fellow co-organizer Maytee Chantharayukhonthorn, also a graduate student in mechanical engineering, started researching platforms that could help them recreate the poster session experience.

After discussing with friends, the pair narrowed down a list of 10 options and performed beta testing with students, faculty, and staff. They chose the video game-like platform Gather.town, which enables people to choose avatars and walk through a virtual space. Once their avatar gets close enough to another user’s avatar, a video chat pops up, allowing people to talk with each other as they would during any virtual meeting.

Owens got to work building a virtual environment that looked like a typical poster session. Presenters and their avatars were stationed at their posters, which users could click on to view as a PDF. As attendees moved their avatar around the “room,” they could approach individual presenters and posters to start a conversation or join an existing conversation, just like an in-person poster session.

“I've always liked video games, so I had fun creating the map and putting our event rooms together,” says Owens, who also added small "Easter eggs," such as a hidden map with MIT’s dome with a police car on top.

The team managed to create a virtual event that was as close to an in-person poster session as possible.

“Seeing people actually walking around from poster to poster, and people chatting in groups, was exactly what we were hoping would happen,” adds Chantharayukhonthorn. “That sort of organic community-building experience was important to us.”

Hosting the event virtually for the first time had some unexpected benefits. Individuals across the wider MIT community were able to join the virtual keynote speech delivered by Norman L. Fortenberry '83, SM '84, SCD '91, executive director of the American Society for Engineering Education.

Additionally, alumni from as far away as Turkey were able to join the event as judges and participants. Judges, including faculty, staff, alumni, and industry representatives, spoke with each student and voted for categories like First Place Presenters, Best First-time Presenters, Best UROPs, Runners-up, and two new awards this year — Best Lightning Talk and Most Innovative Use of Virtual Environment.

“I think the posters are great examples of how our students stay passionate in their scientific research and demonstrate resilience to get through the tough times,” says Nicholas Fang, professor of mechanical engineering and faculty advisor for MERE.

Among the award winners were the following First Place Presenters:

Orisa Coombs: “Multi-component Solution Diffusion Model for Forward Osmosis”

While desalination can help improve access to water globally, it is often expensive. A low-energy process known as OARO — osmotically assisted reverse osmosis — could help lower desalination cost. However, little is known about membrane diffusion in OARO systems.

As part of a UROP with Professor John Lienhard, Orisa Coombs, a senior studying mechanical engineering, developed a computational model of OARO that correlated with experimental data better than existing models.

“We hope that this research will serve to better inform designers of desalination systems and make desalination plants a viable primary water source in the future,” says Coombs.

Sangho Lee: “Nanopatterned Graphene-based Universal Epitaxy Platform for Single-crystalline Membrane Transfer”

Sangho Lee, a graduate research assistant working in the lab of Associate Professor Jeehwan Kim, won a First Place Presenter award for his work on epitaxy — a process vital to the fabrication of semiconductors. In the research he presented at MERE, Lee expanded the materials that could be used in remote epitaxy, a method previously developed by Kim that could substantially reduce the cost of semiconductor manufacturing.

“We found out nanostructured graphene provides a universal epitaxy platform from which we can accommodate the growth, release, and transfer of any high-quality membranes of interest,” says Lee.

Lee will continue his work in fabricating device-level structures such as curvilinear focal plane arrays.

Moses C. Nah: “Dynamic Motor Primitives Facilitate Flexible Object Manipulation – A Study with A Whip”

While the field of robotics has advanced greatly in the past decade, there are still many tasks that robots simply cannot perform as well as humans. One such task is controlling flexible objects. Moses Nah, a graduate student working with Professor Neville Hogan, set out to improve robotic performance in handling flexible objects, like a whip.

The team encoded the robotic controller with structures called “dynamic motor primitives.”

Encoding the robotic controller with these dynamic primitives dramatically simplified the acquisition of the motor skills needed to control an object with many degrees of freedom like a whip, which was modeled as a 54 degrees-of-freedom model for the presented case.

“Ultimately, we want to establish a fundamental understanding of humans’ remarkable motor performance, and apply this understanding to improve machines and robots,” explains Nah, who is currently in South Korea and presented at midnight his time.

Youngsup Song: “Micro-tube Arrays for Enhanced Pool Boiling Heat Transfer”

Boiling water is crucial to the creation of energy. Power plants, steam engines, and concentrated photovoltaics rely on boiling for efficient energy generation. In previous studies, researchers have found that surfaces with microcavities increase the efficiency of boiling heat transfer, while permeable structures with micropillar arrays improve what is known as the “critical heat flux.”

In his research with Professor Evelyn Wang, Youngsup Song, a graduate student studying mechanical engineering, utilized both microcavities and micropillar arrays to increase the efficiency in boiling heat transfer.

“In our work, we combined the two features — micropillar and microcavity — in one structure, such as a microtube, so that simultaneous enhancement of maximum heat flux and efficiency was achieved,” explains Song.

Other award winners at MERE include the following:

Best First-Time Presenters

Carlos Diaz
Rebecca McCabe
Anupama Phatak
Ruben Castro
Miana Smith
Benjamin Koenig
Caroline McCue
Ryuichi Iwata
Kaymie Shiozawa
Saviz Mowlavi
Xia Fangzhou
Sreedath Panat
Stacy Godfreey-Igwe
Yeongin Kim

Honorable Mentions

Swathi Manda
Tyler Hamer
Chad Wilson
Nisha Chandramoorthy
Titan Hartono
Golnaz Isapour
Shashank Agarwal
Rabab Haider

Audience Award: Best Lightning Talk

James Gabbard

Audience Award: Most Innovative Use of Virtual Environment

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Presentations and posters.

Presentations and posters are a key part of any profession. They are a way to share information to clients, colleagues, or the public in a simple visual format. Learn how to organize, format, and present your presentation or poster.

Presenting vs. Writing

Presentations are meant to convey much of the same information as a written report – but that does not mean you slap some figures and quotes on some slides and it makes a good presentation. You need to think carefully about the content and what you will say versus what is in writing on the slide.

Some of the key differences in presenting vs. writing are:

Brevity – a presentation is generally shorter than a written report. You cannot get all the information in your report to fit into a presentation – so don’t try to. What you need to do is to select only the most valuable and important information. What are you trying the communicate and what does the audience really need to know in order to make the right decisions? It’s not easy cutting out what you feel are some really cool things about your work, but if it is not something the audience needs to know then leave it out. You can always refer them to the written report (or to yourself) if there are questions.
Display – Screen space is different than paper space. While paper tends to be black and white, on the screen you can make use of colors and even animations to make your presentation pop. But don’t get too carried away and make a wild color scheme a distraction. Also, make sure that the font is readable for the people in the back of the room (yes, people really do want to be able to read the axis of a graph). So, in general, make sure no font size less than 12pt anywhere. For text in the presentation use at least 18 pt.
Balance of Text and Graphics – Don’t use a lot of text on your slides and don’t read your slides to the audience! If you use too much text you might as well make it a written report and then what is the point of you presenting. The text on the slides should be the most important summary information (you don’t even have to use complete sentences). Graphics are also a great way to convey information. In general, you want at least one graphic on every slide.
Delivery – It’s not just the words you say but also how you say them. The nonverbal communication in your presentation can make a large impression on the overall quality of the presentation. Try to be calm, confident, and engaging with the audience. Make sure that your presentation helps the audience follow your train of thought and grasp the key concepts.
Engagement – In a presentation you want to engage with the audience. This means interacting with the audience (eye contact) and providing a presentation that entices them. Often you can begin a presentation with a short “hook” that grab’s the audience’s attention (anecdote, story, questions, applicable joke, etc.). This helps to engage the audience but also can be used to express the significance of the presentation.

Organization of the Presentation

Most presentations follow a fairly standard organization listed here. However, there are cases where different organizations need to be used so be sure to know what your audience needs. In making your slides you need to make sure that each slide conveys one main point usually described by the slide title.

Title Slide

The first slide is usually the title slide. It does much the same job as the cover page in a written report. You should give the title of your presentation, who is presenting (and who worked on the project), and affiliations (such as the company you work for or who is sponsoring the project). While presenting the title slide (or adding another after it) you may include your “hook” to help engage the audience and grab their attention.

Outline/Overview

The next slide generally gives an outline. It does much the same job as an abstract or a table of contents in a written report. You should let the audience know where you are going. Outline the project and the results that will be presented. Don’t use a generic outline, but tailor it to your presentation.

Motivation and Objectives

The third slide generally sets the stage for the audience. Why do they want to know about what you are presenting? What are the objectives of the project? What are the questions you are going to answer? This is probably your most important slide. Make sure the information on this slide ties the rest of your presentation together (every slide should be supporting the motivation and objectives and the conclusions should answer the questions raised here).

Experimental Setup or Design Requirements

If you are reporting on the results of an experiment you can describe the apparatus and procedures as well as any standards followed. If you are presenting a design report you can describe the requirements/constraints of the design problem and design goals.

The results section simply states the results of the design or laboratory experiments. In an experimental or laboratory research presentation the results will typically consist of the results of the calculations and/or experimental data. This is where you can put in your most important tables and figures that answer your research questions/objectives. Use limited text that highlights what the audience should take away from the graphic. You can explain in your speech the details. You should also give the audience an understanding of the methods used in analyzing your experiment. In a design presentation the results typically consist of calculation work done in interpreting the design. You don’t have to show all the calculations in a presentation, but you should give the audience an understanding of how you arrived at your design.

This is the heart of your presentation. You should present what you determined in the design or learned from the experiment. In an experimental or laboratory research presentation, you should analyze your results by discussing the data and interpreting your results. State the significance of your results clearly, and compare your results with theory or other work. Be sure to use quantitative comparisons in your discussion. Indicate if the results support the underlying theory or contradict it. In a design presentation, you should highlight the main recommendations of the design or compare the design with other alternatives. This may be where you evaluate the value vs. cost of the proposed design. The audience should have a clear understanding of why this design was chosen.

Conclusions and Recommendations

Based on the data you presented to the audience tell them what they should have learned or should do with that information. These conclusions should answer the motivations presented on the third slide. Conclusions are usually presented with a bulleted list on one slide (if you can’t fit it on one slide – then you need to work on focusing your presentation and weeding out extraneous information). Recommendations can be on the same or a separate slide.

Text Density

Don’t put a lot of words on your slide. Generally, slides will have fewer than 100 words (and that is only for a conclusion slide that can be more word heavy). Most slides will have only 10 to 30 words, some slides may have no words on them. Don’t use complete sentences. Rather used bulleted lists or short phrases. Do not read your slide to the audience. The point of a presentation is that you are talking to the audience, so say something they cannot read.

Follow the format suggestions for Figures, Tables, and Equations that you would use in a written report. You don’t have to number the graphics, but you do need to make sure they look good. If you did not produce the graphic be should to include a citation. Make sure all graphics appear clear and sharp. Don’t use too many graphics to too complicated of a slide. Too much will overwhelm the audience.

Consistency

You may think using lots of different fonts and other visual makers makes the presentation more interesting, but the key here is to keep things simple. Use visual markers (such as bold or italic font, different colors, or arrows and stars) to highlight key information on a slide, but don’t use so many that it becomes a distraction to the audience. Also, be consistent in your use. If you use one type of arrow to highlight something, use the same arrow throughout in the same way.

One of the benefits of a presentation is that they are in color, but you want to be careful with the use of color. PowerPoint has a wide array of colorful backgrounds that seem interesting, but don’t be tempted by these. In general, the background should be light, uniform, and dull. Dark text on light simple backgrounds are easier for the audience to read. Use colors sparingly to highlight important information, such as some text in red. Be careful, some colors (like yellow) show up well on a computer monitor but do not project as well. If possible do a trial run and try projecting your slide in the room you will be presenting in to check colors and make sure font is readable.

Slides give you a good amount of space and you want to make sure that you fill it without being overly crowded. Work with your presentation to make sure each slide is visually balanced and appealing. Also try to keep the same format through many slides.

Transitions and Animations

In PowerPoint, slide transitions and other animations (flying in text) can be used. These help the visual appeal of the presentation, but like colors, they should be used sparingly and consistently. For example, if you choose one method for a slide transition keep the same method throughout the presentation. If you want to animate the text (flying it in) then use the same method throughout. Try not to use too many animations (You don’t need a new fly in for every bullet. Its ok to put them all up at once and talk through them one by one).

Slide Titles

Slide titles are good to use. They help the audience know what the slide is about. But don’t use a lot of repetitive generic titles like “results.” Instead, use a title that describes the content on each slide. Each slide should convey only one main point.

Slide sizes are either 4:3 or 16:9. The squarer 4:3 size used to be the standard, but now more and more projectors use the 16:9 format. Know the room you will be presenting in and choose the correct size. If you use a 16:9 slide size and the projector is a 4:3 size, then your slides will not be projected as large.

One of the main differences between a presentation and a written report is that you will be speaking directly to the audience. A good presentation has a speaker that is effective, engaging, and confidant. Practice is the best way to improve your speaking. Practice in your home. Get friends and family to be an audience. Practice in the room you are to present to feel more familiar with it. Beyond practice, below are some suggestions for improving your speaking.
The presentation should be formal, specific, and complete. You need to use professional technical language. In some cases, the presentation may be less formal and more interactive. Know your audience.
Engage your audience. Make eye contact with them, don’t stare at your screen. Try walking around the room (if possible).
Vary your pace and tone in the presentation. You don’t want your presentation to be one long monotone monologue. Make appropriate pauses to let the audience think about a particular point. Ask questions and get the audience to engage if possible.
Use spoken transitions between slides so that the audience can follow your train of thought and logic of your presentation.
Speak loud enough to be heard at the back of the room. If the room is too large consider using a microphone. There is nothing more disengaging to an audience than not being able to understand the speaker. If your language skills are poor, slow down and speak as loudly (but don’t shout at them) and clearly as possible.
Avoid distractions and filler words. Try not to use “um” and “like”. If you are having trouble remembering what to say, a pause is ok. Pay attention to your body language. You should appear to be calm and confidant in your presentation. Portraying confidence is the best way to get the audience to trust in your conclusions or design recommendation. Don’t fidget. Keep your hands to your side or use them for gesturing occasionally.
Laser points are good for getting the audience to focus on a particular item in the slide, but don’t use them all the time.
Know what you are going to say ahead of time, but don’t memorize a speech. You want your presentation to feel natural and flowing. You need to make slight modifications to what you are saying based on the audience reactions.
Watch the audience. If it is clear they are disengaging or looking confused try to adjust your talk to address them. You can try asking questions or telling a joke.
Speaking in public can make even the most seasoned speakers feel a bit nervous. The key is to find the tips and trick that allow you to calm your nerves and deliver a confidant presentation. Practice is one of the best ways to become more confidant, but also mental preparations and tricks can help distract your mind from your fears and focus back on the presentation. A quick Google search will provide many websites with suggestions for improving confidence in public speaking.

PowerPoint can be used to create a poster. You simply need to adjust the size of the slide to the required (or allowed) size of the poster. Below are some general rules on a poster.

Be brief in the information. Like in a presentation only include that which is needed to inform the audience on what they need to know to make a decision or understand a conclusion. Unlike a presentation you may not be there to explain everything, so make sure there is some details.
Use color in the poster, but be sparing with it. Keep to only a few complimentary colors and make sure the text is a different color (i.e. light text on a dark background or dark text on a light background)
Section your poster into different areas (like the different sections of a presentation). The most important information (motivation and objectives) should go in the upper right corner.
If you use any graphics that you did not produce make sure they are cited
Be sure to include your name and affiliation (also perhaps contact information) in case the audience wants more information. You may also provide references to associated written reports.
Like in a presentation you want to keep text short. Use key words and phrases and bulleted lists. However, unlike a presentation you may need to use more text in the poster as you may not be there to explain everything.
Make sure all font is readable when the poster is printed.
If you are presenting your poster be ready with a 30-45 second “elevator” speech to convey the main point of your poster. If the audience member is interested, you can go through more details.

Mechanical Engineering

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Please note: Poster Presentations

Check the requirements for your poster.

These resources are for general guidance only. For specific requirements like font size, orientation and poster size you must follow the requirements you have been given by your lecturer - if you are not sure check the module handbook or on GCU Learn.

Academic & Scientific Poster Presentation

Research Methodology and Scientific Writing

Chapter: Conference Presentations and Posters pp 497-521

Roberts Academic Medicine Handbook

Chapter: How to Prepare a Poster pp 381-388

Basic Methods Handbook for Clinical Orthopaedic Research [electronic resource] : A Practical Guide and Case Based Research Approach

Chapter: How to Make a Good Poster Presentation pp 219-225

Presenting an Effective and Dynamic Technical Paper

Communicate Science Papers, Presentations, and Posters Effectively

Designing Science Presentations

Six Insights to Make Better Academic Conference Posters

International journal of qualitative methods, 2019, Vol.18

You may also want to check out Sage Research Methods - a package to support all aspects of research. There are lots of ways to create your poster - we have linked to PowerPoint guidance and Canva below - as always check the requirements you have been given.

Sage research methods A collection of books, user guides and much more to take you through every step of a research project. Search for "poster presentations"
Canva for posters
How to make an academic poster in powerpoint YouTube video: A simple 8 step process for making an academic poster for a conference, specifically in PowerPoint.
Pixabay - copyright free images
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Poster Presentation Workshop

The MechE Comm Lab is hosting a workshop on designing and presenting a poster. Students and postdocs are encouraged to attend in preparation for the MERE 2018 Exhibition. Food will be served. Time: 5-6pm, Venue: Rm 5-314. Please RSVP via Eventbrite .

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Presentation Topics for Mechanical Engineering

by Ravi Bandakkanavar
June 22, 2017

This post lists latest presentation topics for Mechanical engineering. These topics have been picked from wide areas of Mechanical Engineering like Robotics, Automobiles, Nano Technology etc.

Adaptive Crusie Control Plus System
Ablative Materials
Abrasive Blast Cleaning
Active Electrically Controlled Suspension
Active roll-over protection system in Automobiles
Adaptive control
Advanced Battery and Fuel Cell Development for Electric Vehicle
Advanced composites
Advanced Cooling Systems
Advanced Propulsion Methods
Advanced Quadruped Robot – BigDog
Advanced Rocket Motors
Advances in Capillary Fluid Modelling
AeroCapture
Aerodonetics
Aerospace Flywheel Development
Air Augmented Rocket
Air Casters
Air Cushion Vehicles
Air Powered Cars
Air suspension system
Scramjet Engine
All Aluminium Alloy Conductors (AAAC)
ArcJet Rocket
Autocollimator
Automatic Conveyor for Industrial Automation
Automated Guided Vehicle System
Adaptive control for 3-D overhead crane systems
Electronic Fuel Injection (EFI)
Magnetic Levitation Train
Autonomous Submarines
Ball Piston machines
Bench top wind tunnels
Bio-degradable polymers
Biomass Fuelled Power Plant
Twin-Turbo or Biturbo
Blended Winged Aircraft
Camless engine with electromechanical valve actuator
Carbon Foam-Military Applications
Cryogenic Treatment of Brake Rotors
Car Speed Control by Blue Tooth
Carbon nanotube cloths
Carbon Nanotubes
Collision warning system
Compressed Air Cars
Common Rail Direct Injection (CRDI) Engines
Composite materials
Compound Vortex Controlled Combustion
Continuously Variable Transmission
Conditional monitoring & fault Diagnosis
Contactless energy transfer system

Suggested Read: Technical paper presentation topics for CSE Presentation Topics for Civil Engineering

Corrosion resistant gear box
Crew Exploration Vehicles
Cruise Missile Technology
Cryogenic Grinding
Cushioning Impact in Pneumatic Cylinder
Dark Room machining
Digital manufacturing
Double-wishbone suspension
Advantages of tubeless tires
Drive-By-Wire Systems
Driver information system (DIS)
Dual Clutch Transmission
Dynamic Ride Control (DRC)
Dynamic shift program (DSP)
Eco-Friendly Surface Treatments
Bomb Detection Robotics using Embedded Controller
Traffic Light Control System
Adaptive Cruise Control System
Maglev Levitation Trains
Vapor Absorption Cooling System
Combustion Stability in I.C. Engines
Electromagnetic Brakes
Electric Power Assisted Steering
Electromagnetic Valves
Electrochemical Machining (ECM) & EBM
Electromagnetic Bomb
Electron beam machining
Electronic Road Pricing System
Energy Conversion and Management
Energy efficient turbo systems
Engineering Applications of Nylon 66
F1 Track Design And Safety
Full Authority Digital Engine Control
Floating Power Stations
Floating Solar Power Station
Fluid Energy Milling
Fly ash utilization
Flywheel Batteries
FMS (Flexible Manufacturing Systems)
Fractal Robot
Free Form Modelling Based on N-Sided Surfaces
Frictionless Compressor Technology
Fuel Cell Airplane
Fuel cell powered Go-Karts
Fuel Cells on Aerospace
Fuel Energizer
Fuels from Plastic Wastes
Low-cost anti-lock braking and traction control
Arial Photography Using Remote Flying Robot
Electronic Vehicle Identification in the Intelligent City
Hexapod Robots
Robotic Surgery
Hydrogen (water) Powered vehicle
Carbon fiber reinforced plastic Composites
Dynamic Car Parking Negotiation and Guidance Using an Agent-Based Platform
Full Colour 3D Modelling Using Rapid Prototyping
Functional Nanocrystalline Ceramics
Fuzzy logic in Aircraft stability
Geo-Thermal Energy
Handheld Radiation detector
HANS-In F1 Racing
Harvesting Wave power
Heavy duty Gasoline engines
Difference between tubeless and with tube tires
High Altitude Aeronautical Platforms
High angle of attack aerodynamics
High-Speed Precise Gear Boxes
High-Speed Trains
Highly Productive And Reconfigurable Manufacturing SystemHigh-Wire car
Hovercrafts
Tanker Robot For Vision Based Surveillance System
Sensor Based Motion Control Of Mobile Car Robot
Involuntary Train Collision Prevention System
Hybrid Energy Systems
Hybrid Motorcycles Hybrid Synergy Drive (HSD)
Hydraulic railway recovery systems
Hydrogen Car
Hydrogen Generation via Wind Power Electrolysis
Hy-Wire Car
Infrared Curing And Convection Curing
Infrared Thermography
Intelligent Compact drives
Inter-Continental Ballistic Missile (ICBM)
Jelly Filled Telephone Cables
Jet Powered Boat
Jet Stream windmill
Jetex Engine
Kalina cycle
Load Sensing Hydraulics
Latest in hi-tech petrol fuel injection GDI (Gasoline Direct Injection)
Latest Trends in Automotive Engg.& Technology
Launching Space Vehicles from Moon
Lean Burn Spark Ignition Engine
Lean engineering
Lightweight material-Carbon fiber
Liquid Injection Thrust Vectoring (LITV)
Logistics and supply chain management
Low-Cost Spacecraft Simulator
Magnetic Levitation
Magnetic Nanocomposites
Magnetic Refrigeration
Marine electric propulsion
Mass Rapid Transit system (MRTS)Mechanical torque limiters
MEMS in Industrial Automation
Mesotechnology
Metal-Matrix Composite ProcessingMicro Batteries
Micro Fluidic Chips
Micro Gravity
Micro Heat Exchangers
Micro hydraulics
MicroTopography
Miller Cycle Gas Engine
Modeling and simulation
Modular conveyor belts
Modular Gear motor
Molten oxide electrolysis
Multi Valve Engine
Nano Fluids Thermal Applications
Magneto Abrasive Flow Machining
Multi Point Fuel Injection System
Six Stroke Engine
Nanobatteries
Cell Phone Operated Robot
Low-Cost Wind Power Plant
Vacuum Brakes
Vehicle Speed Sensing and Smoke Detecting System
Fire Fighting Robot
Nanomaterial-based Catalyst
Nanorobotics
Nono Fluidics
Nuclear fuel reprocessing
Nuclear Power Potential as Major Energy Source
Ocean Thermal Energy
Oil Shear Technology
Oil well drilling
Opto-Electronic Sensor System
Orbit Forming
Orbital WeldingOrbital/Space Mechanics
Pendolino system for railway passenger comfort
Perpetual Motion Machines
Photonic Crystals
Pint Sized Power Plants
Plasma arc welding
Plastic WeldingPolymers castings
Porous Burner Technology
Portable X-Ray Fluorescence Analyser
Power from Space for use on EarthProcess Automation Techniques
Pseudoelasticity and Shape Memory in Metal Nanowires
Pulse Detonation Engine
Pulsed Plasma Thruster
Pump Noise level reduction methods
Quantum Chromo Dynamics
Random vibrations
Rapid Injection Moulding
Recent Trends in Quality Management
Regenerative Fuel Cells
Resistojet Rocket
Responsive manufacturing
Robot-driven cars ( Autonomous car )
Robotic Assistants for Aircraft Inspectors
Humanoid Robots
Robots in Radioactive Environments
Selective Catalytic Reduction (SCR)
Self Healing Spacecraft
Self-Healing Polymer Technology
Semi-synthetic cutting fluids
Sensotronic Braking System
Single Crystal Turbine Aerofoil
Solar Impulse – Solar Powered Flight
Solar Powered Refrigerator
Solid Liquid Separation Technology
Space Elevator
Space Robotics
Space Shuttle
Space Shuttle Boosters
Space Station
Spacecraft Propulsion
Special materials for high-temperature applications
Stealth Radar
Synthetic polymers
Stealth Technology
Steer-By-Wire
Stereoscopic Projection Systems
Stirling engine
Super Flat Nano Films
Supercavitation
Superconducting Rotating Machines
Synthetic Aperture Radar
Tension Control Brake
Thermo Acoustic Refrigeration
Thermoacoustic refrigerator
Threadless Couplings
Tire & wheel without pneumatics
Tool Management System
Touch trigger probes
Trends in welding
Turbines in silicon
Ultra Nano Crystalline Diamond
Underwater Welding
Underwater windmill
Vacuum Braking System
Valvetronic Engine Technology
Variable compression ratio engine
Variable Length Intake Manifold (VLIM)
Variable Valve Timing in Internal Combustion Engines
Vertical Landing and takeoff engine
Weld flaw detectors
Welding Robots
Wind-diesel System
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67 thoughts on “Presentation Topics for Mechanical Engineering”

Hello sir, I am Radhika Tiwari. I am doing diploma in mechanical engineering. I need a topic for my final year project model. Can you please provide me some trending topics to work on

Hello sir .. I am mahaveer Singh from mechanical engineering (b.tech) final year student .. I want a topic for a term paper presentation in my clg . Which I use in future for my project also… Suggest me topic plzz….

You can talk about flying taxi (air taxi). There is also Robot Dog.

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Presenting design concepts: how mechanical engineers can sell slam-dunk ideas

Presenting design concepts isn't the most fun part of a mechanical engineer's job. Learn a few tips to make the process less painful.

Gary McCormick

September 8, 2015

If you’re like most mechanical engineers, you entered the field because you like solving problems and making things. That’s the fun part of the job. But other aspects of mechanical engineering are necessary to support the designing-cool-stuff part, and although they might not be as interesting, they don’t have to be unpleasant. One such task is presenting design concepts.

Whether you are pitching to VC angels for startup funding or presenting to your company management about an ongoing project, presenting technical information—often to nontechnical people—is an important, and challenging, part of a mechanical engineer’s job. Keeping the following basics in mind can ensure your presentation goes smoothly.

Know your audience

This is the single most important factor to consider when preparing a design presentation. Any time you present technical information, you have to be aware of your audience’s level of expertise. Presenting to “money people” or management (even engineering managers, who may be years removed from actual design work) usually requires a broader, big-picture type of approach with less technical nitty-gritty. Too much emphasis on technical details with a nontech audience, and they will stop following you and start thinking about their dinner reservations or afternoon tee time.

I recently served on a jury for a case that called a mechanical engineer as a witness to present expert testimony. All his talk of three-axis accelerometers and moment arms was meat on the table to me. And thanks to his communications skills, my fellow jurors, none of whom had a technical education, also followed—and understood—his testimony. He kept the explanations fairly simple, without talking down to his audience, and the results reflected his skill.

But if your audience does comprise other engineers, you can get into the nuts-and-bolts technical issues—the stuff you really like to talk about—without fear of losing their attention.

“When you’re presenting to your peers, you’re looking for suggestions and ideas on ways to improve your design and make it more manufacturable,” says Elise Moss, senior mechanical engineer at Newisys. “If you’re working in the same company, they might be working on similar projects, and they may have parts or assemblies or purchased components that you can cannibalize to make your project easier to manufacture or cheaper to produce. So when you’re presenting to other engineers, the goal is to get ideas to improve your design.”

Know your product

The types of questions you may have to field during and after a design presentation vary depending upon your audience, so the better you know all aspects of the subject matter, the better-equipped you are to field questions.

Alternative concepts (especially lower-cost alternatives, if your audience includes bottom-line-type management or budget people), materials, manufacturing resources, potential materials suppliers or parts vendors, safety issues, schedules—all are fair game for questions. You might not necessarily include them in your pitch, but have the information in your hip pocket. In-depth knowledge of the concept and preparation based on the makeup of your audience are the best way to be prepared for questions.

What if you are asked a question that you don’t have the answer to, at least not in the moment? As a young engineer, I had to present to the head of a government agency, a man with a reputation for being short-tempered and impatient with waffling engineers. After watching him thoroughly dress-down a coworker for his lack of knowledge, I knew what to do when I couldn’t answer a question on the spot (my mother didn’t raise any fools): I responded that I didn’t have that information at hand, but I would transmit the information at the earliest possible opportunity. My answer satisfied the customer, and I left the podium with my pride intact.

Moral of the story: Take action to get the answer, and get it to the person asking as soon as you can. Hemming and hawing makes you look like you are hiding something, at worst, and, at best, gives the impression that you are not well-prepared for the presentation.

Tailor your presentation materials to the subject

The most common presentation method is the ubiquitous Microsoft PowerPoint. Slavishly following PowerPoint’s lead usually results in information-sparse, outline-oriented lists that presenters then read to their audiences, a technique derided by premier information specialist Edward Tufte .

A slideshow can be a viable presentation method, but rule No. 1 is: Don’t read your slides . Prepare a narrative, which is your main information source; let the slides present basic points; and then deliver that narrative as the meat of your presentation.

Of course, engineers can usually do better than a slideshow. Utilize 3D graphics, computerized animation, or even 3D-printed prototypes to demonstrate your concepts. Engineers excel at visualization, so when presenting a design concept, put those powers of visualization to work to help those who don’t possess them.

When presenting to his manufacturing clients, Scott Wertel of Wertel Enterprises, LLC, finds that those visualizations are key. “Share a screen, if you can, so it’s live, and you can visualize the model,” he says. “Hide and show things so the client can actually get a viewpoint. The focus is always very much, ‘Your operator is standing here. Visualize the product going through the machine. Visualize what the operator is doing. Here’s why it’s better; here’s why it’s safer; here’s what your throughput is going to be.’ It really helps, too, if I’ve modeled up a mannequin so they can see how the person is standing around the equipment.”

Prepare, practice, present

Not everyone is a natural public speaker, no matter how well you know your subject matter. The best way to combat that fear is to prepare thoroughly and practice your pitch beforehand. Preparation breeds confidence, and there is no substitute for running through your presentation a few times with colleagues or friends.

But that’s not all. If possible, check out the venue and the equipment beforehand to make sure that everything is connected and operating properly. It’s surprising how a little thing like reaching confidently for the switch on the projector as you start your presentation can get you out of the starting blocks smoothly—and how quickly things can run off the rails if you start with technical glitches.

If presenting design concepts is going to be a regular feature of your job, make it a strength . Work at it if it doesn’t come naturally to you. Take a class at the local college, find a chapter of Toastmasters International , whatever it takes to develop that skill. You may be an excellent engineer, but if you cannot communicate the pertinent information about your design to others—especially nontechnical folks—you might as well have a blank sheet of paper.

About Gary McCormick

Gary McCormick is that rare thing: a mechanical engineer in Silicon Valley who doesn’t just design the boxes that contain the interesting electronic stuff. Working in the field since 1981, Gary has experience in mechanical engineering design, production, and testing. He has been pursuing a side career as a freelance writer (and disproving the theory that engineers can’t write) since 211.

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10 Technical Poster Presentation Topics with 5 Ways to Explore Them on Paper

Technical poster presentation topics represent a set of topics that are suitable for posters with a scientific purpose to demonstrate knowledge in technical disciplines:

Engineering,
Computer Science,
Astronautics,
Nuclear Science,
Telecommunication,
Radio Electronics,
Robotics, etc.

An academic poster can be regarded as an indispensable tool to raise your and others’ awareness of a technical issue. You need to conduct technical research and summarize the main information on a certain technical issue, then present it in a clear visual way on paper. It is what we are going to explain to you in this article – what technical poster presentation topic to choose and how to present it clearly for an audience in a poster. Go on reading and get equipped with useful tips!

Table of Contents

10 Technical Poster Presentation Topics

“What to investigate in a technical research project so that it will be interesting for me and my audience?” If this question occurs to you, you should keep in mind some steps in choosing the best technical poster presentation topic:

Focus on less-investigated areas of study that interest you most;
Consider several technical poster presentation topics;
Narrow down the scope of the most interesting topic;
Ask your professor for feedback.

Here you are the list of research ideas for your technical poster presentation at talks, conferences or seminars. After looking it through, you’ll be able to determine what you could do a great research project about while being a technical student.

The Evolution and Improvement of Wireless Communication;
Artificial Intelligence and Signal Processing for Better Speech Recognition;
The Medical Application of Biochips;
Data Security in Government Computer Network Systems Management;
The Quality and Flexibility of Industrial Automation in the 21st Century;
Face Detection Technology: The Operating Peculiarities and Their Improvements;
Holographic 3D Projection Device and Its Practical Application;
Modern Applications of Nanoscience and Nanotechnology;
Autonomous Driving: 5 Details of Modern Technology;
Home Audio Video Interoperability and Its Standardization.

How to Do a Technical Poster Presentation in 5 Simple Ways

After you choose the most interesting technical poster topic for your own presentation, your affairs are much better. However, don’t get too excited as you need to know how to present your technical poster successfully. To create a good technical poster, there are a number of points to consider:

The purpose of creating a poster. It is aimed at informing an audience about the chosen technical research question and attracting their attention to it. So all your efforts should be devoted to meeting this particular purpose. Gather as much relevant information about a technical issue as possible and present it in a clear and interesting way (that will be provided in this article below – arm yourself with patience to read it to the end!)
The targeted audience. Depending on the audience you’re going to present a technical poster, you choose the way of presentation. If the audience is aware of all the terminology you want to mention, there is no need to provide additional explanations. If not, be ready to clarify all the complex concepts you’re going to present. Usually, technical posters are presented to young researchers like you or professors from the technical faculties.
The coherent organization of poster content. Everything you are going to include must relate to your research question closely. A poster is limited by space to provide too much information. It isn’t free writing of essays. Mind it! Say no to all irrelevant data and include only those pictures, graphs, and tables that underpin your central research idea. Besides, even if you want to present some text in your poster, it is better to give headlines, bullet points, and numbers to make the text easy to read and understand. These instruments help to highlight the discussed issue better and to attract public attention to the key moments of the technical research. As for the poster organization, put the central idea in the center and build on it the rest of the poster content.

One of the possible technical poster presentation topics is provided below. Pay attention to all the details. Is this poster perceived as a coherent statement that gives all the necessary information on the topic “Wireless Charging vs. Wired Charging of Electronic Devices”? Reportedly, yes.

Look how it is possible the same good results in your own technical poster presentation!

Collect the most relevant and interesting information to fulfill the purpose of a poster. Remember the purpose of creating a poster? You are supposed to inform and attract the readers to the research issue. In your case, it is referred to as a technical research question. That’s nothing to sneeze at! So it is vital to stick to the subject so that it will be interesting for all who intend to read your poster. Mind it can be read by both a specialist with a high level of knowledge within a technical discipline and a person unfamiliar with some technical terms and practices. For that reason, weight up the data given to both types of readers so that they will be able to digest all at once.
Develop a presentable poster layout. What does it mean? Posters are usually designed on paper of size A0, A1 or A2 – quite an impressive scope of writing. So it is important to work in the way in which writing and pictures will be well-arranged on a given page. You can choose any way of structuring your poster, but there is the only thing you can’t neglect – the visibility of all the posters elements. Make them visually appealing and easy to follow. It is possible to achieve with the help of clear headings and subheadings.

Outline a poster in advance. Don’t hope that all the information that you’re going to use will fit in your poster nicely. But if you work on a poster outline beforehand, it will be much easier to produce a good poster. Draw squares where each new research idea or fact will be separately written down. After that, look at the outline of your poster and decide if you will read it with interest what is written. Remember you should be the first ‘objective’ reader of your poster. Alternatively, you can always find someone who is more experienced in assessing the quality of posters – professional poster writers, editors and other experts in creating eye-catching content.
Think about the visual imagery of the technical poster. Luckily, a poster isn’t a research paper itself where you need to write, write and write a lot of text to meet a page or word count (as it is common for most students). In posters, students are required to present the research process, its results briefly. How to do it? With the help of different visual elements – color, shapes, lines, scales, graphs, charts, diagrams, tables, pictures, etc. So all the graphical elements that could provide the most convincing display of your competence in the technical issue in question, and emphasize or clarify the importance of your technical research efforts. Don’t try to create colorful Coca-Cola or any other famous company. Be unique in filling your technical poster with informative and appealing visual elements.

Hopefully, our article is helpful for you, but remember that we can be more helpful when our specialists will take off their coat to the work – a well-arranged poster written specifically according to your instructions is waiting for its users. Don’t miss this opportunity to make a technical poster presentation favorable for your academic path!

Too busy to write your paper by yourself?

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Mechanical Engineering Posters and Presentations

OpenFOAM Dakota interface

Anjali Sandip

Traditionally, multi-physics/phase simulation software programs lack tools for uncertainty quantification and optimization. More recently, there is a growing body of research that has integrated these tools into multi-physics/phase simulation software programs [1-4]. Building on this methodology, the study integrated open-source software programs, OpenFOAM [5] for multi-physics/phase simulations and DAKOTA [6] for optimization and uncertainty quantification. Furthermore, the coupled software was successfully applied to benchmarks. The overarching goal was to develop an open-source framework for multi-physics/phase simulations, optimization and uncertainty quantification. The applications of this open-source framework span several industries ranging from aerospace and energy to healthcare and manufacturing.

$Influence of stress triaxiality on fracture ductility for stereo lithography by Anjali Sandip and Ravi Kiran Yellavajjala$

Influence of stress triaxiality on fracture ductility for stereo lithography

Anjali Sandip and Ravi Kiran Yellavajjala

Stress triaxiality is one of the most important factors that controls fracture ductility. The objective of this study was to investigate the influence of stress triaxiality on fracture ductility for specimens’ printed using stereolithography (SL). Dog bone shape specimens were printed using Formlabs® Form 2 Desktop SLA 3D printer. The specimens were built layer by layer with the help of this 3D printer. Each layer of liquid photopolymer is solidified through a computer-controlled ultraviolet (UV) light source with a laser spot size of 140 𝜇m. A photopolymer resin supplied by the manufacturer which comprised of a proprietary mix of Methacrylated oligomers, Methacrylated monomer, photo initiators and trace amount of pigments and additives was used for printing the specimens. The length of the specimens was 92.06 mm and the width of the specimens in the gage length portion was 6 mm. Uniaxial tensile tests were conducted on 3D printed specimens. Numerical simulations of the uniaxial tensile tests were performed using the commercial finite element code, ABAQUS. Material properties of 3D printed specimens were calibrated using Abaqus/Isight. The stress triaxiality distribution in the critical cross section at a displacement corresponding to fracture displacement was evaluated. The maximum and average stress triaxialities at the critical cross section was recorded. Triaxiality versus equivalent strain to fracture was plotted for the tested specimens. The results indicate a strong dependence of fracture ductility on stress triaxiality for the 3D printed specimens investigated in this study.

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books - Presentation topics For Engineering Students

136 Trending Presentation Topics for Engineering Students

Being a student means giving your best, bringing the best, searching for something new, and presenting the same, especially if you are an engineering student.

For an engineering student, research and presentation become an integral part.

Finding the best topics to research and presenting the same can bring new opportunities for you.

Are you an Engineering student? Are you looking for awesome presentation ideas for your seminar?

We have researched and summarized the internet’s best and latest topics for you.

We have also explained each topic briefly. Here is the post of the interesting ideas for your topics :

Microelectronic Pills

Yes, pills aka (also known as ) medicines. Using a nano-tech baby again to make a pill that is ultra-small and covered with resistant polyether. It has a circuit design, battery, and much more. It is difficult to design and not reusable but has some fair advantages too like determining the pH value of blood, etc. Seems good .

Stepper Motor & its Application

Its applications are 3D printing, medical imaging, milling and many more. It’s just like another motor converting electrical power into mechanical power but what is the difference between this and a simple motor is it is brush-less. You can go on talking about its uses in industry.

Optical fiber communication

You know Jio is working on this. Tata companies already established one in foreign. You have learned its advantages but the only problem is that we have to change the existing systems and then implement this. So it will take little time but it is surely coming in the world in the future. So information can travel faster, you can watch your live streams in seconds. And will be cost-effective .

Learn more about Optical Fiber

Electronic Ballast

It’s is a device that basically limits the amount of electric current in the circuit. It does so by a series connection with a load. It’s simple but highly useful. It does this through the principle of electrical gas discharge. Okay, too much technicals. But it is a very good presentation and one of the good topics in general .

Storage area network

It is a data storage. Has a lot of modern uses. One such use is creating multiple data points and improving data security. It can be easily scaled and has centralized storage.

Traditional and 3D modeling

You make 3 models for documentation and displays. Used in films, computer graphics, gaming, interior design, and many more. And you know this is great technology to see. If you are interested in this topic, you can email any companies who do 3D modeling. And see it in real life. It’s truly an awesome experience to see what goes in the background.

Control of environment parameter in a greenhouse

Natural resources are depleting day by day. So this project deals with using the minimum amount of resources to yield maximum results. Research is done to improve efficiency. WE Truly need this as the population is increasing and crops are not yielding properly.

Cybersecurity

Securing your online presence. Everyone does not become ethical hackers and everyone does not become scammers. So with improvement in technology we need more and more security. This is a vast area to cover, so you can have many opportunities to get a good research and present well.

Communication Network Design

There are many types of Communication Network design- LAN, MAN, WAN, Wireless, Internet. So you can see that this is another broad area to cover. You cannot get to show practical demonstration except for algorithms and network diagrams. That is one disadvantage yet still this is one of the revolutionary inventions of this century .

Thermal & Infrared Imaging Technology

Its applications are in industries, surveillance, construction, and many more. It allows us to visualize the heat emitted. We can understand it’s very important in modern-day comparatively. It’s an interesting and really very good project to work on .

Artificial Eye

Yes, Doctors make an artificial eye to replace our damaged eyes. It’s really jaw-dropping. People can’t seem to find much difference between an artificial eye and a normal one.

Packet Switching chips

The art of sending information in form of packets. Packets are made of a header and a payload. Computer Nerds, you hearing me, right? You will like learning about this. Wait a minute, you may know about this. Even if you know or not, it’s a fascinating topic.

Aeronautical Communications

You guessed it right, aeronautical communication is all about sharing data between aircraft and control centers. This is a highly specialized division. Communications such as aircraft-to-ground, aircraft-to-aircraft, and aircraft-to-satellite.

Performance Evaluation & EMI/EMC Testing of Energy Meter

Energy meters or basically the meter present down at your house (if you are living in an apartment) can be manipulated. You read that. Now we think I wish I knew this before. But it’s illegal. I guess…How? By Electromagnetic interference (EMI) and electromagnetic compatibility (EMC). So this topic is how to evaluate your current properly.

Space mouse

I suddenly remembered Jerry from Tom & Jerry. Sorry. Space mouse is even cooler. It’s like a joystick but to control your 3D models that are present in your virtual screen. I have never controlled a 3D model using a space mouse. But I sure want to see it.

Low energy efficiency wireless

It’s forming a network that is both cheap and efficient. What else we need. This is decent and I will not say very easy but it’s kinda simple. Simply Good. You will need to design a network for this .

Reactive Power Consumption in Transmission Line

Reactive power reduces effective power in the transmission line that comes to your home. But still, it is needed to move active power. So research is about how much reactive power does a transmission line consumes.

Big data visualization

You can visualize data in the form of charts, diagrams, and basically an image. That is exactly what this is all about. Google chart is the best example of Big Data Visualization. There are a plethora of new ways being invented to this .

Brain-Computer Interface

So we connect the brain with an external device . The idea is old yet we do not have a proper working prototype yet. We are still far in human testing. But we are just one the trigger away from improving the speed in this technology. It is by far the most futuristic thing up till now.

Google Home and Google On hub support Mesh Networking. To keep all the devices in connection at the server level. Mesh Radio is still not popular in our country but it is going to be in some years.

Fusion Technology

Nuclei are hit at each with high speed particle guns. Such that they fuse and release energy. Capturing, Controlling, Distributing that power is Nuclear Fusion technology.

Bi-CMOS technology

Bipolar-CMOS is a semiconductor technology for constructing analog and digital logic circuits from both CMOS and Bipolar semiconductor technologies.

Renewable Energy Source Biomass

Biomass is organic material made from plants and animals. Biomass is a renewable energy source because as we grow trees and crops, waste will always exist. Examples of biomass fuels are manure, crops, and some garbage.

Agent-oriented programming

In contrast to object-oriented programming, Agent-oriented programming focuses on the construction of software. There are many research papers going on in this field.

Tsunami warning system

A system developed that could predict the coming of the natural disaster. This is highly important as countless lives and property can be saved. Especially in the eastern part of the world where it’s very dangerous.

Developed by Google, needs no introduction. It revolutionized and gave a tough call to iOS. There are still many Android Developer jobs coming. Going for Android will make you understand your Android’s features more and more.

Smartphone technology

Android and Smartphones are like two sides of a coin. But still, they can be totally new things in smartphones like how your Smartphone is becoming thin day by day.

Touch screen technology

I still remember the old Blackberry and Nokia phone which we used to be amazed at. And suddenly in 2009, I saw my first Samsung smartphone. It was awesome as what caught most of our attention is the touch screen technology which and having no keyboard and stuff. New things to learn here.

CAN-based Higher Layer Protocols and Profiles

It’s the standardized Higher Layer protocol for a number of purposes. There are many research papers on this being made by students from different institutions. There is to lot to say about such protocols.

Feeder Protective Relay

It protects your power grid from faults to supply energy without breaking. Not true for all conditions. But it is still worth our attention looking into this knowledge.

3D image technique and multimedia applications

3D is going to play a vital role in our day-to-day life soon. It’s going to be a movie experience on another level. We may sometimes forget about its vast advantages such as in the fields of architecture, security, manufacturing,etc.

Compressed air Car- A car that can run not on any fuel, not on gasoline, but on air. Yes, AIR. Highly Pressurized air. It does not have a great design or even a normal design . Every now and then we have a new startup that comes and shows out their model. But we clearly see it’s in the phase of research.

Biometric technology

We have seen forensics use it, and we have also seen an average Joe use it sometimes for his company check-in. And pretty much your identification Aadhar card. Right? The main one. Using a Biological way to identify someone in a crowd. This is soon going to be implemented all around the world.

Electronic watchdog

Smart homes in many countries have successfully given a prototype and are being used. So that when an annoying friend comes home and waits for you, you will be informed about it even when you are outside. Sounds good to me. Well and to a lot of investors, as they keep pouring money into R&D (Research and Development) to continually add more features.

Night vision technology

Night vision goggles, which we have used only when we are playing smartphone games. Oh wait we don’t use it there too often. But you must know that almost any other CCTV security camera you bump into as night vision to track people. So it is useful for industries and in the security department.

Advanced technique for RTL

Register Transfer Level (RTL) debugging can help find errors but there was a need for the debugging to be automated when designs became complex. So there are techniques developed to do this very thing. Designs, Figures, Tables are some of the data you need to understand better.

Ultra-wideband technology

It’s a low-range radio technology. It’s like it’s still in the beta version. For any number of years, developers have tried again and again to develop such technology. We are getting closer and closer. Hope your presentation will be the icing on the cake.

Bio-magnetism

Like an animal magnetism. Magnetic Fields by organisms seems innovative but really weird. What could be the future of Bio- Magnetism, we don’t know. But scientists believe that such organisms can be the key for us to understand magnetic fields in a totally different way.

DC Arc Furnace

It’s really a cool project. You use electricity to heat up the arc. It is used in making steel. It has some issues though but it is a very famous project. You can add demonstrations and make the presentation classier.

Global positioning system and its application

You know about GPS and its applications. It looks simple to use but there is a great amount of engineering happening to bring such products. Engineers like you are mainly visionaries.

This is another important topic that is very rare. Few people use these topics. If you wanna be among the few.

Pill camera

Pill are medicines. And the camera is well a camera. So it looks like medicine you swallow into your body. It takes images of your internals -intestine, esophagus, etc. And is very safe.

Something can go wrong only for 1.4% of people. But it is effective and in use. A great yet microscopic presentation.

Animatronics

What is animatronics? Whenever you go to any children’s theme park or any theme park. You will mostly see a puppet-like dinosaur that moves and produces sounds. It is like an automated machine. Disneyland uses these things all the time. This is another new topic.

Built-In Breathing System-used in diving chambers and submarines. BIBS is how you efficiently built a system to breathe in emergency conditions. This is a project in which you will get to learn a lot of simple things in a new manner.

You find a problem and you fix it. You know that. What if you are not a big fan of debugging? But still there are new methods being developed.

You can compile all the new and latest methods. And you can present it. Probably solve a few and find a more efficient method in your presentation. You can give a try.

Turbo codes

You may have heard of it. It was published in the early 90s. They are a class of error-correcting codes. This is a project done by other students also. Not a special topic. But you can get content on the internet done by other people. You can get inspired and add your own version.

Bimolecular Computers

It combines three fields in it- computers, biology and of course engineering. It’s really new. And developers believe it has the potential to revolutionize technology. Many people are researching this very topic. You can find their papers online and derive inspiration.

PC interfaced voice recognition system

Now you don’t have to type your password. You have to speak it. And it will access your computer. Kinda like Shivaji The Boss’s Laptop. This is a pretty neat presentation idea. Many countries have such technology. It is not widely popular in our country yet.

Telephone conversation recorder

The title says it all. There is little content about building a circuit for such a task. While most projects are looking into the future. You may think that being in the smartphone age why should we think of the telephone. Well, it may look simple. Yet it was remarkable technology which we also use in our own smartphones.

Future Satellite Communication

This is BTech Seminar Topic which you may or may not have heard. This is pretty awesome in itself. Communicating via satellite. This technology is defining the way we communicate.

Most of us use the internet. But there is research going on that is absolutely mind-blowing.

Nano-technology

Well, we have talked about a lot of nanotechnologies here and there. So here you focus only on its technology rather than its uses. Making technology smaller is nice. But a lot of effort is needed. You may know about nanotechnology. But really how well do you know about your nanotechnology ?

How about doing some research on it. Who knows you will end up liking it. I highly recommend it.

And you can also see the best tips for an ms PowerPoint presentation to present your topic. 8 Tips to make your Powerpoint Presentation look Professional

Future generation wireless network

You have used data and Wi-Fi. But what is the future of it? Many are trying to understand what the future generation will do. Well, we are talking a lot about the future. We have to. You can read about graphene to start.

Next-generation mobile computing

Mobile is a computer. It is getting advanced every day. So what does the future hold for smartphones? We don’t know yet. Super smartphones, maybe? Well, smartphones came because of android. Yeah android, the same android developed by engineers like you. Who knows, you will be inspired to get that next idea.

Smart antenna for mobile communication

This is another topic that seems old and it is indeed. Papers were written about it in the 90s. And such phones were tested in the market too. You may think what is the use of it now. Well, our defense uses it. Our Army uses it for communication.

Mobile train radio communication

When Radio was working in the old days we used to say over-over. It was one-line communication. Then we improved it to two-way line communication. This is exactly how we do that. Now we use similar technology in our smartphones.

Augmented reality

You know virtual reality(VR). It is looking at things in 3D view. Things that exist in the computer but we will be able to look as if it is lying in your room. Then what is Augmented Reality(AR) you may ask? AR is adding to VR. Now we can not only see it but touch it, feel it and smell it. Sounds amazing to me.

Matter & Energy

You know matter and energy are related to this equation. E = mC squared. This is how atom bombs were based on. Matter turning into energy. This is a century-old discovery yet still relevant in the modern world.

Interactive public display

Another important project topic. Many research papers have been published. When we go to malls, we see large TV-like screens which display ads or videos. It is present in New York’s Time Square. This is going to make our world look smarter.

The Vanadium Redox Flow Battery System

It is difficult to explain easily here. Yet it is truly a good idea. It was demonstrated in the 1980s. We use such a battery system in large power stations today.

Cellular digital packet Data

It is another old technology but its the research is pretty easily found online. Though its services were ended by the Government in 2004. Yet it had speed in data transmission compared to others. Their possible speed was 19.2 kbits/s.

Flexible A C Transmission

Flexible Alternating Current Transmission (or in short FACTS) refers to a system. Basically, when the power comes from the power plant to your house, some power is lost. With FACTS, we have more control ability such that we reduce power wastage. And this system allows our current bill rate not to skyrocket.

Quality of electrical power.

We already spoke about FACTS in the above topic. This is about the quality of that power. To have a steady flow of power. This will go in detail about the study of transmission. And how we need to efficiently use the power generated by the power plant.

Radial Feeder Protection

Basically it’s the same field of protecting power from getting lost. How does it do?When there is a fault like a short circuit we still get power. It is because of Radial Feeder Protection.

Smart dust core architecture.

The goal of smart dust in simple words is to minimize energy. It can get complicated and difficult to explain. Yet it’s circuit diagrams are awesome and its basic architecture is neat.

Traffic pulse technology

Using technology to control traffic more efficiently. This is a modern technology solution to modern traffic problems. Using sensors and proper algorithms is the one solution governments are working on.

Virtual Reality

This future is exciting, especially for streamers and gamers. Those who want to feel and not just see and hear. You must see the VR Headset now and understand it more. About its algorithm, design, function, and reviews. Combine VR with AR. It will take our experience into another dimension.

Blue eyes technology

Blues eyes technology is having computer sensors that read users. And personalize user-experience. Many apple devices are blue Eyes based.

Seminar on artificial passenger

Well many people die in car accidents even when a little drowsiness could cause many innocent lives. This technology is based on sensing the vehicle surrounding and vehicle condition such that it avoids accidents. It’s something everyone is working on.

Telecommunication Network

A telecommunications network is a collection of terminal nodes where links are connected to enable telecommunication between the terminals. It’s a pretty neat idea. There are many types of telecommunication networks.

Organic electronics

It deals with conductive polymers. And conductive molecules. It is more flexible and amorphous in nature than inorganic. Many projects have been made on this topic.

Application of Swarm Robots

Swarm Robots is having its application in medical, defense, etc. There are many uses for these tiny robots. This presentation idea is also used less. Nevertheless, it is still a wonderful tech that will define the very defense systems that are protecting our country.

Autonomic Computing

Autonomic Computing is exactly as it sounds. The Computers manage, allocate resources, and fix errors on its own hiding in the background. This is mostly needed in modern technology to make a more user-friendly experience. Users can be panicked with all the manual computing work. This Autonomic system comes to the rescue.

It’s a microchip inserted into our body. Developed in the early 80s. Used in the medical field. Has a great engineering background even at that time. It amazed a lot of people. you can present about its development and its pros & cons.

The making of quantum dots

What is a quantum dot? A quantum dot is a very small semiconductor that transports electrons. But your main focus is how to make these small semiconductors. You can research about it and find pretty good stuff about it.

74. Very-large-scale integration (VLSI)

Very-large-scale integration (VLSI) is the process of integrating, creating millions of transistors on a single microchip. VLSI technology came into the picture in the 1970s when advanced-level computer processor microchips were under development. It is helping corporations in reducing the circuit size, is cost-effective, and consumes lesser power. VLSI is a successor to large-scale integration (LSI), medium-scale integration (MSI), and small-scale integration (SSI) technology.

DBMS – In today’s digital world, data means everything, and due to the evolution of Database management systems, organizations are gathering, processing, and leveraging more from their work because they can process and leverage tons of data on hand effectively and without much fuss. Its applications are being used across multiple fields, from credit card transaction records to railways system management, Military, Telecom, and Banking.

CMOS stands for “Complementary Metal Oxide Semiconductor.” One of the most popular technologies in the computer chip design industry is broadly used to form ICs or integrated circuits. It makes use of both P and N channel semiconductor devices. This is the dominant semiconductor technology for microprocessors, microcontroller chips, memories like RAM, ROM, EEPROM application-specific integrated circuits (ASICs).

Technology-Related Topics

Share your thoughts on Artificial intelligence
How VR(Virtual Reality) works?
Can online identity be secured?
What’s new with nanotechnology in the past five years?
Solar energy: An option or Future?
What is green technology?
What’s the latest update about 5G technology?
How to prevent online data theft and privacy threat?
How to make learning apps, popular as social media apps?
How to be safe from cyber-terrorism?
Concept of genetic engineering
How do driverless cars work?
Waste management system in 2021.
Some facts behind the great innovation of the world.
New gadgets to expect from fast-growing technology
Share best suggestions for parking problems.
What separates engineering from any other career field?

Environmental Topics

What are you thinking of Biofuels?
Overpopulations: What can we do about it?
How to stop food wastages?
Is pollution prevention possible?
Sustainable agriculture
Causes and effects of air pollutions
Causes and effects of soil pollutions
Causes and effects of water pollutions
Discuss climate change
Global warming: Myth or Real?
Deforestations: How to stop it?
Impacts of Ozone layer hole
Nuclear wastages
Reasons behind Acid Rain
Can we save our environment and nature?
Alternatives to the Papers – A move to the environment and health.
What makes the perfect urban design and structuring?

IT-related topics for presentation

Cryptocurrency and Blockchain
Iron Dome: How does it work?
Advanced Home security solutions
The potential threat of robots to humans.
E-cigarettes
Staying protected in the digital world
Touchscreen technology is over, What’s next?
How does GPS track you?
Mobile: The biggest threat to your privacy
IT laws and governance
Facebook-Whatsapp: Data & Privacy Concerns
Green computing
Android vs iPhone
Voice over Internet Protocol (VoIP)
Online marketing: Pros and Cons
How CyberTerrorism is becoming the new threat?
What’s new in the tech industry?
Social media privacy: Possibility and the challenges

Non-technical Presentation Topics for Engineering Students

Engineering and management: The thin line within
This world needs more engineers: How so?
How to be more productive and use your time right?
Technology that we must need, but no one is talking about
Engineers also have to know how to sell, but why?
A world without engineers: Importance of the engineers
Is artificial intelligence also a threat to the engineering field?
What are the other career options engineers have?

So hope this will be helpful for your presentation. This is a sub-article of the main one. You can check the primary article here: 200+ Trending Presentation Topics for Students

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Old Guard Technical Poster Competition

Rules and Procedures

Engineers, like all professionals, must possess a well-developed ability to communicate. This poster competition, held at the ASME E-Fest (Engineering Festival) , is designed to emphasize the ability to deliver a visual presentation. Subject matter is to be related to some area in the field of mechanical engineering.

Administration

The Old Guard Committee sponsors the competition and all revisions.

Contestants

To be eligible to participate, a competitor must be a Student Member of ASME who satisfies the criteria established for the Old Guard Oral Presentation Competition. Students entering the Old Guard Technical Poster Competition may not enter the Old Guard Oral Competition at the same E-Fest.

Competition Entry

Students who wish to participate must complete the appropriate entry form and submit it to the host school of the conference their student section plans to attend.

Visit the E-Fest website.
Choose the location of the E-Fest your section plans to attend.
Complete and submit the entry form for that location.
Poster entrant must be in attendance at the E-Fest where the poster is presented.
More than one poster submitted at a given event (E-Fest) may deal with a single project. However, each poster must be developed by the effort of the individual submitting it, not by team efforts. See below regarding acknowledgements of assistance by other students or advisors.

Poster Presentation

Failure to abide by the following rules will disqualify the poster.

The subject matter of the poster must address a technical, economic or environmental aspect of engineering, or other basic engineering theme, provided it pertains to some sphere in which an engineer is or should be involved
Each poster may be no larger than 48 inches (122 cm) by 36 inches (91.4 cm) unfolded. Posters may be assembled using A4, A5 or 8½" by 11" paper panels.
Except for fasteners (such as thumbtacks) all poster material must be flush with the board, not protruding more than 1/8 inch (3.2 mm).
There may be no mechanical or electrical devices attached to the poster.
There may be no materials placed in front of, above, below, or to the side of the poster.
All material must be accessible without having to lift or turn a page.
Each entry may have only one author printed on the poster. However, ethical policies require credit (acknowledgements) to be given on the poster for any assistance by other students or advisors.
The name and affiliation of the author must be in a prominent place on the Poster.
The poster should be prepared so that it is easily understood in the absence of the author.
Neither the author nor any other individuals may be present during the judging.
Judging criteria are based solely on the content of the front of the poster.
Each local competition is to be judged by at least three engineers, preferably ASME members.
The conference Host Section is responsible for selecting the judges.

Scoring Criteria

Download Scoring Sheet for Technical Poster Competition

The ASME Old Guard Committee will provide the following prizes:

First Place: $350 plus one-time membership upgrade
Second Place: $250
Third Place: $150
Fourth Place: $100

Adopted by the Old Guard Committee October 18, 2018

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Welcome to ITME - 2024

Creating contacts as possible to provide a means for scientific and industrial exchanges.
Boosting the scientific and research collaborations with other scientific centers in the country and around the world.
Promoting the basic and applied research in mechanical engineering, identifying the top ideas and turning them into productive projects.
Strengthening the interaction and communication between educational institutions and the industries.
Finding out the latest scientific achievements and research methods.
To encourage academicians for doing more research work and innovations.

KIET Group of Institutions is recognized as one of the best engineering colleges in Delhi-NCR. Founded by the members of Krishna Charitable Society in 1998 with a modest number of 180 students, KIET Group of Institutions has now become a pioneer in the technical education domain with a strength of 6800+ students. With a rich alumni base of 19000 + students spread in all the nooks and corners of the world, KIET Group of Institutions is moving efficiently towards its vision of shaping young minds with skill-oriented & value based education as these alumni serve the dual purpose of mentoring the present students, as well as opening new doors for them. The institute has gained a distinct image as an outstanding educational colossal among the technical institutions of Uttar Pradesh, due to its inclination towards innovative and skill-based education. Its consistent belief in 'Achieving High' is aptly reflected in its academics, extracurricular activities and placements. The success of its belief is clearly brought out in the plethora of Education Excellence Awards bagged by the institute. The institute has been accredited by NAAC with Grade 'A+' and its programmes (ME, CSE, ECE, EEE, IT, CE, MCA, MBA and Pharmacy) are NBA accredited.

Call For Paper

The scope of this conference is to provide a platform for researchers, engineers, academicians as well as industrial professionals from all over the world to present their research results and development activities in various topics of Engineering and Technology. The conference is being organized specifically to help the industries to derive benefits from the advances of next Technologies. ITME-2024 is soliciting original, previously unpublished and high quality research papers addressing research challenges and advances in the tracks mentioned below. Articles will be Blind Peer-Reviewed by at-least two experts to decide its suitability for publication in the conference. Authors are requested to send their papers strictly in IEEE format. After acceptance of the paper, intimation to authors will be sent and thereafter authors are required to register for the conference. For considering paper in the conference, at least one author has to register. We follow the STRICT PLAGIRISM policy. Papers for presentations should conform to the conference format and specifications. All submissions must be in English only. The accepted, presented and extended papers will be submitted for publication in SCI/SCI-E/SCOPUS indexed Journal/Proceeding

Link of ITME – 2019 publication – https://link.springer.com/book/10.1007/978-981-15-8704-7 Link of ITME – 2021 publication – https://www.sciencedirect.com/journal/materials-today-proceedings/vol/64/part/P3

ITME-2024 invites original contributions on all topics related to Mechanical Engineering. All papers must be original and not simultaneously submitted to another journal or conference. The following paper categories are welcome- Authors are invited to submit their original and unpublished work. Topics of interest for submission include under thrust areas of Applied Science & Technology (but not limited).

Call For Posters

The title should be the same as in the submitted abstract.
The size of the poster must be 4’ (Vertical Dimension) × 3’ (Horizontal Dimension).
Text should be readable from five feet away. Use a minimum font size of 18 points.
Lettering for the title should be large (at least 70-point font). Use all capital letters for the title.
Make sure that the text and the visuals are integrated. Figures should be numbered consecutively according to the order in which they are first mentioned in the text.
Make sure that you present sufficient data to support your conclusions.
Printing on separate small sheets and pinning together is not recommended.
Make sure that it has a logical flow.
Use colors, graphics, charts, and photos.
Posters should be handed to the registration desk as early as possible.
Use the space to attract your audience for discussion, not to present complex details of methods and results.
Applied Physics
Metallic Alloys
Artificial Intelligence, IoT & machine learning
Advanced Sustainable Structural Materials
Biomaterials
Applied Mathematics and Computation
Synthesis and Characterization of Materials
Smart and Advanced Functional/multifunctional Materials
Environmental Science
Simulation and Modelling
Renewable Energy
System Modeling, Design, Simulation and Control
Mechanical Structures and Stress Analysis
Nuclear Engineering
Thermal Engineering
Robotics & Mechatronics
Software Engineering
Theoretical and Applied Mechanics
Dynamical Systems
Nonlinear System Engineering
Fluid Mechanics and Dynamics
Sensors and Surfaces
Heat and Mass Transfer
3D Printing
Additive manufacturing
Tribology and Surface Technology
Risk and Safety Management
Computational Fluid Dynamics
Supply Chain Management & Logistics
Industrial Engineering
Mechanical & Industrial Engineering
Advanced Materials and Tools
Industry 4.0
Engineering Design & Mechanism
Micro-Machining
Ergonomics and Work Study
Product Design and Development
Noise, Vibraon & Harshness Control
Rapid Prototyping
Hybrid machining
Refrigeration & Air conditioning
Non-destructive evaluation
Automobile design & analysis

IMPORTANT DATES

Paper submission deadline, review completion, revised paper submission, registration deadline (early bird), registration deadline, conference dates, submission guidelines.

Full papers describing the latest developments in various fields of Mechanical Engineering are welcome for oral presentation/poster presentation. The length of the paper submitted should be in the range of 2000-2500 words. The quality of paper and similarity index will also be checked. The registration by at least one of the authors and presentation of the paper are required for inclusion of paper in the SCOPUS/SCI indexed conference proceeding/Journals.
The manuscript should be written in Times New Roman Font (size 12) and single line spacing with suitable citation of figures and tables along with References. Margin of the paper may be set 2.54 cm on each side. Author’s name, affiliation and E-mail need to be mentioned clearly.
Peer reviewed manuscripts need to be formatted as per journal style depending upon the recommendation of the conference committee.
Decision of the organizers will be final and binding.
An abstract of about 100-200 words should be provided on the title page.
This should be readable without reference to the article and should indicate the scope of the contribution, including the main conclusions.
An introduction, which may begin with what is new in the paper, not with statement that is well known to everyone.
Appropriate section of the text.
A conclusion.
An acknowledgement (optional).
A list of references in proper format.
A set of original figures and tables.
A list of captions for all figures and title for all tables.
The paper prior to submission should be checked for plagiarism from licensed plagiarism software’s Turnitin. The similarity content should not exceed 15% and not more than 5% from any single source (in any case either self contents or others). Further, you have to strictly implement the following ethical guidelines for publication:
Any form of self-plagiarism or plagiarism from others' work(s) should not be there in an article. If any model / concept / figure / table / data / conclusive comment by any previously published work are used in your article, you should properly cite a reference to the original work.
Also language of explaining it should not be same as language of the work from which you have adopted it. If you are using any copyrighted material, you should acquire prior permission from the copyright holder.

REGISTRATION FEES

Registration Fee is mandatory for at least one author of an accepted paper to register in order for the paper to appear in the proceedings and included in the Technical Program. Following fee is to be paid only after acceptance of paper and applicable for single paper.

While making online payment, authors are requested to mention their Paper ID clearly in Payment Remark to enable us to trace your payment in the Bank Statement.
The registration doesn’t cover accommodation, transportation etc.
At least one author of an accepted paper is required to register at the full registration rate. If an author has got more than one accepted papers, each paper has also to be registered.
All the fees are exclusive of bank and service charges and inclusive of GST.
To avail the discount for 2nd paper, same author needs to register.
No extra food coupons, conference kit will be issued for the 2nd paper registration.
Scholar/student needs to submit the valid studentship card.
The signature of the authorship i.e. name of the authors, their affiliations and their order in the paper cannot be changed, once the camera-ready paper submission deadline is over.
If authors, participants cancel their registration or do not attend the conference, the registration fees will not be refunded in any case.
No TA/DA will be paid to any delegate for the Conference.

MODE OF PAYMENT

For indian authors.

Paytm QR Code: - Released Soon

For Foreign Authors

Bank detail is as following: Account Holder Name: KIET Group of Institutions Account No.: 125601000763 Bank Name: ICICI Bank Ltd Branch: Choudhary More, Ghaziabad, UP, India IFSC Code: ICIC0001256 SWIFT Code: ICICNBBNRI PAN No.: AAATK2465P

KEYNOTE SPEAKERS

KEYNOTE SPEAKERS ITME 2024...will be updated soon.

KEYNOTE SPEAKERS ITME 2021

Prof R Prasad

(IIT Delhi)

Prof A Barber

(Dean, LSBU)

Prof H Upadhyaya

Prof Adrian Murphy

(QUB, Belfast)

Prof Allan Matthews

(University of Manchester)

KEYNOTE SPEAKERS ITME 2019

Distinguished Prof. Bharat Dahiya

Director, Research Center for Integrated Sustainable Development College of Interdisciplinary Studies, Thammasat University, Bangkok,Thailand Distinguished Professor, Urban Youth Academy, Seoul, Republic of Korea

Dr Saurav Goel

(Ph.D. Heriot-Watt University, Scottland) Department of Ultra Precision Processing Faculty of Cranfield University, United Kingdom

Prof. Bale V. Reddy

Department of Automotive, Mechanical and Manufacturing Engineering Faculty of Engineering and Applied Science Ontario Tech University Oshawa, ON, Canada, L1H 7K4

Prof. Mohammad Muzammil

Mechanical Engineering Department Ergonomics Research Division A.M.U., Aligarh India

Our Sponsors/Partners

ADVISORY BOARD MEMBERS

Prof Allan Matthews , University of Manchester, England
Prof Adrian Murphy , Queen's University Belfast, UK
Prof. Xichun Luo , University of Strathclyde, Scotland
Prof. Eng. Dimitar G. Petrov , Technical University - Sofia, Plovdiv Bulgaria
Professor (Dr.) V. K. Jain (Retired, IIT Kanpur)
Professor (Dr.) M. Affan Badar , Indiana State University, USA
Prof Akhtar , Victoria University, Australia
Prof. Bharat Dahiya , Thammasat University, Bangkok, Thailand
Prof Vipul Jain , Wellington, New Zealand
Prof Saurav Goel , LSBU, UK
Prof Manoj Gupta , NUS Singapore
Prof M N Khan , Majmaah University, KSA
Prof Bale V Reddy , Ontario University, Canada
Prof. Pulak Mohan Pandey , Director BIET, Jhansi
Prof. G.N. Tiwari , Ex. Professor, IIT Delhi
Prof. Rajesh Prasad , IIT Delhi
Prof.Puneet Mahajan , IIT Delhi
Prof Rajeev Srivastava , MNNIT, Allahabad
Prof Mohammad Muzammil , AMU, Aligarh
Prof. Pankaj Chandna , NIT Kurukshetra
Prof. Z A Khan , JMI, Delhi
Prof. Abid Ali Khan , AMU, Aligarh
Prof. Amit Pal , DTU, Delhi
Prof. Punit Kumar , NIT Kurukshetra
Prof. Parveen Kumar Saini , NIT Kurukshetra
Prof. Sunil Pandey , LNMIIT Jaipur
Prof Pavan Kumar Kankar , IIT Indore
Prof Faisal Hasan , AMU, Aligarh
Prof. S K Garg , DTU, Delhi
Prof. RS Walia , PEC Chandigarh
Prof. Reeta Wattal , DTU, Delhi

TECHNICAL BOARD MEMBERS

Dr. Amit Tyagi , IIT BHU
Dr. Harish Kumar , NIT Delhi
Prof. Kuldeep Kumar Saxena , LPU Punjab
Dr. Pushpendra Singh , DTU Delhi
Dr. Sidhartha , NIT Hamirpur
Dr. Rajneesh Kumar , NIT Kurukshetra
Dr. B.B. Arora , DTU Delhi
Dr. Akhilesh Arora , DTU Delhi
Dr. Gulshan Sachdeva , NIT Kurukshetra
Dr. Amitesh Kumar , NIFFT Ranchi
Dr. NathiRam Chauhan , IGDTUW, Delhi
Dr. Gaurav Goel , Thapar Institute of Engineering and Technology, Patiala
Dr. Rahul Vaishaya , PEC, Chandigarh
Dr. Vinay Kumar Patel , Uttarakhand Technical University Dehradun
Dr. Mohit Tyagi , NIT Kurukshetra
Dr. Sachin Kumar , IIT Ropar
Dr. Hemant Kumar , Indira Gandhi Centre For Atomic Research, Kalpakkam
Dr. Varun Sharma , IIT Roorkee
Dr. Apurba Mandal , NIT Uttarakhand
Dr. Satyendra singh , NIT Jalandhar
Dr Anuj Kumar Shukla , NIT Raipur
Dr. Rajesh Mishra , BITS Pilani
Dr. Arun Kumar Pandey , BIET Jhansi
Dr. Jitendra Kumar Katiyar , SRM Chennai
Dr. S S H Rizvi , JMI, Delhi
Dr. Ashok kumar Dargar , LNMIIT Jaipur
Dr. Harishchandta Thakur , Gautam Buddha University Greater Noida
Dr. Dilshad Ahmad Khan , NIT Hamirpur
Dr Manoj Kumar Sinha , NIT Kurukshetra
Dr. Girish Chandra Verma , IIT Ropar
Dr. Sanjay soni , GEC Jabalpur
Dr. Mohit Raj Saxena , IIT Ropar
Dr. Rajender Kumar , CCS University Hisar Haryana
Dr. Ratnesh Kumar Raj Singh , Thapar Institute of Engineering and Technology, Patiala
Dr. Sumit Tiwari , Shiv Nadar University, NCR
Dr. Prabhat Sinha , Sam Higginbottom University, Allahabad

ORAGNIZING COMMITTEE MEMBERS

Chief patron.

Shri Sarish Agarwal Chairman, KIET Group of Institutions

Dr. A. Garg, Director KIET Group of Institutions

Dr. Manoj Goel Joint Director, KIET Group of Institutions

Conference General Chairs

Prof. (Dr.) Ashish Karnwal (HoD) Prof. (Dr.) Saurav Goel (LSBU, London)

Conference Conveners

Prof. (Dr.) K L A Khan (Dean Innovation, Entrepreneurship & Consultancy) Mr. Saurav Kumar, General Manager (In Charge) Technology Business Incubator-KIET

Conference Organising Chair

Prof. (Dr.) Anurag Gupta

Organizing Committee

Mr. Ashok Kumar Mr. Awadhesh Kumar Mr. Pradip Pathak Mr. Kuldeep Singh Mr. Prashant Vashishtha Mr. Ashish Kumar Singh Mr. Vivek Pathak Mr. Rajesh Kumar Patel Mr. Piyush Pant Mr. Neeraj Kumar Mr. Sonendra Sharma Mr. Abhishek Yadav Mr. Ashish Sharma Mr. Ankur Sachdeva

Organising Secretaries

Prof. (Dr.) Ajay Singh Verma Prof. (Dr.) Sandeep Chhabra Prof (Dr.) Pratibha Kumari Prof. (Dr.) Neha Bhadauria Dr. Gaurav Sharma

Technical Program Chairs

Dr. Gaurav Mr. Vineet Kumar Vashishtha Mr. Ranjeet Kumar Mr. Sachin Rathore

KIET Group of Institutions 13-KM Stone, Ghaziabad-Meerut Road, Ghaziabad-201206, Uttar Pradesh

[email protected]

+918881548979, +918126528068

Accomodations

Limited accommodation within the campus is available in the Institute Guest Houses on actual payment basis. KIET Ghaziabad is located in a well-connected area and has multiple hotels available in the near vicinity. Participants are requested to contact in advance if they wish to avail boarding and lodging facilities within or outside the campus.

Will be updated soon..

How to Reach KIET

Places of Visit

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SSC JE 2024 || Questions From Most Important Topics || Mechanical Engineering by Vikas Sir
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COMMENTS

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Conclusion. For a mechanical engineering presentation to be effective, it's essential to know who you're talking to and make your story easy to follow. This helps you connect with your audience and makes it easier for everyone to learn and grow professionally. Creating slides that grab attention is also crucial.
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Successful posters are designed for a targeted audience at a single type of event. Posters designed for multiple purposes (for example, for use during a conference and then for use as a stand-alone manuscript-on-a-wall) tend to do poor jobs on both fronts. Also, make sure to confirm the poster board dimensions for the specific event, especially ...
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Not a mere formality - get the most out of your MERE Poster Presentation . June 3, 2020 MIT's Mechanical Engineering Research Exhibition (MERE) is one of the first big events in the department each fall. As one of the organizers of MERE 2019, I had a birds eye view of the poster presentation, the audience, the judging, and our goals.
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Here are tips for the layout of your EDC poster, which will measure 24 inches by 36 inches: Use more graphics than text. Your poster should be about 40 percent graphics, 40 percent white space, and 20 percent text. Put a title banner across the top. Use 96-point type so the title is visi-ble 10 feet away.
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We have also explained each topic briefly. Here is the post of the interesting ideas for your topics: Table of Contents show. Microelectronic Pills. Stepper Motor & its Application. Optical fiber communication. Electronic Ballast. Storage area network. Traditional and 3D modeling.
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Mechanical Engineering Poster presentation - Copy. Sep 9, 2016 •. 1 like • 3,218 views. Mallikarjuna H T. 1 of 1. Download Now. Download to read offline. Mechanical Engineering Poster presentation - Copy. Mechanical Engineering Poster presentation - Copy - Download as a PDF or view online for free.
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Presentation Topics For Mechanical Engineering Students

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2. Know Your Audience and the Potential Questions

3. Choose an Interesting Template

4. Enhanced Visual Effects

5. Correct Body Language and Eye Contact

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