problem solving in childhood

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How to Teach Kids Problem-Solving Skills

KidStock / Blend Images / Getty Images

• Steps to Follow
• Allow Consequences

Whether your child can't find their math homework or has forgotten their lunch, good problem-solving skills are the key to helping them manage their life. 

A 2010 study published in Behaviour Research and Therapy found that kids who lack problem-solving skills may be at a higher risk of depression and suicidality.   Additionally, the researchers found that teaching a child problem-solving skills can improve mental health . 

You can begin teaching basic problem-solving skills during preschool and help your child sharpen their skills into high school and beyond.

Why Problem-Solving Skills Matter

Kids face a variety of problems every day, ranging from academic difficulties to problems on the sports field. Yet few of them have a formula for solving those problems.

Kids who lack problem-solving skills may avoid taking action when faced with a problem.

Rather than put their energy into solving the problem, they may invest their time in avoiding the issue.   That's why many kids fall behind in school or struggle to maintain friendships .

Other kids who lack problem-solving skills spring into action without recognizing their choices. A child may hit a peer who cuts in front of them in line because they are not sure what else to do.  

Or, they may walk out of class when they are being teased because they can't think of any other ways to make it stop. Those impulsive choices may create even bigger problems in the long run.

The 5 Steps of Problem-Solving

Kids who feel overwhelmed or hopeless often won't attempt to address a problem. But when you give them a clear formula for solving problems, they'll feel more confident in their ability to try. Here are the steps to problem-solving:  

• Identify the problem . Just stating the problem out loud can make a big difference for kids who are feeling stuck. Help your child state the problem, such as, "You don't have anyone to play with at recess," or "You aren't sure if you should take the advanced math class." 
• Develop at least five possible solutions . Brainstorm possible ways to solve the problem. Emphasize that all the solutions don't necessarily need to be good ideas (at least not at this point). Help your child develop solutions if they are struggling to come up with ideas. Even a silly answer or far-fetched idea is a possible solution. The key is to help them see that with a little creativity, they can find many different potential solutions.
• Identify the pros and cons of each solution . Help your child identify potential positive and negative consequences for each potential solution they identified. 
• Pick a solution. Once your child has evaluated the possible positive and negative outcomes, encourage them to pick a solution.
• Test it out . Tell them to try a solution and see what happens. If it doesn't work out, they can always try another solution from the list that they developed in step two. 

Practice Solving Problems

When problems arise, don’t rush to solve your child’s problems for them. Instead, help them walk through the problem-solving steps. Offer guidance when they need assistance, but encourage them to solve problems on their own. If they are unable to come up with a solution, step in and help them think of some. But don't automatically tell them what to do. 

When you encounter behavioral issues, use a problem-solving approach. Sit down together and say, "You've been having difficulty getting your homework done lately. Let's problem-solve this together." You might still need to offer a consequence for misbehavior, but make it clear that you're invested in looking for a solution so they can do better next time. 

Use a problem-solving approach to help your child become more independent.

If they forgot to pack their soccer cleats for practice, ask, "What can we do to make sure this doesn't happen again?" Let them try to develop some solutions on their own.

Kids often develop creative solutions. So they might say, "I'll write a note and stick it on my door so I'll remember to pack them before I leave," or "I'll pack my bag the night before and I'll keep a checklist to remind me what needs to go in my bag." 

Provide plenty of praise when your child practices their problem-solving skills.  

Allow for Natural Consequences

Natural consequences  may also teach problem-solving skills. So when it's appropriate, allow your child to face the natural consequences of their action. Just make sure it's safe to do so. 

For example, let your teenager spend all of their money during the first 10 minutes you're at an amusement park if that's what they want. Then, let them go for the rest of the day without any spending money.

This can lead to a discussion about problem-solving to help them make a better choice next time. Consider these natural consequences as a teachable moment to help work together on problem-solving.

Becker-Weidman EG, Jacobs RH, Reinecke MA, Silva SG, March JS. Social problem-solving among adolescents treated for depression . Behav Res Ther . 2010;48(1):11-18. doi:10.1016/j.brat.2009.08.006

Pakarinen E, Kiuru N, Lerkkanen M-K, Poikkeus A-M, Ahonen T, Nurmi J-E. Instructional support predicts childrens task avoidance in kindergarten .  Early Child Res Q . 2011;26(3):376-386. doi:10.1016/j.ecresq.2010.11.003

Schell A, Albers L, von Kries R, Hillenbrand C, Hennemann T. Preventing behavioral disorders via supporting social and emotional competence at preschool age .  Dtsch Arztebl Int . 2015;112(39):647–654. doi:10.3238/arztebl.2015.0647

Cheng SC, She HC, Huang LY. The impact of problem-solving instruction on middle school students’ physical science learning: Interplays of knowledge, reasoning, and problem solving . EJMSTE . 2018;14(3):731-743.

Vlachou A, Stavroussi P. Promoting social inclusion: A structured intervention for enhancing interpersonal problem‐solving skills in children with mild intellectual disabilities . Support Learn . 2016;31(1):27-45. doi:10.1111/1467-9604.12112

Öğülmüş S, Kargı E. The interpersonal cognitive problem solving approach for preschoolers .  Turkish J Educ . 2015;4(17347):19-28. doi:10.19128/turje.181093

American Academy of Pediatrics. What's the best way to discipline my child? .

Kashani-Vahid L, Afrooz G, Shokoohi-Yekta M, Kharrazi K, Ghobari B. Can a creative interpersonal problem solving program improve creative thinking in gifted elementary students? .  Think Skills Creat . 2017;24:175-185. doi:10.1016/j.tsc.2017.02.011

Shokoohi-Yekta M, Malayeri SA. Effects of advanced parenting training on children's behavioral problems and family problem solving .  Procedia Soc Behav Sci . 2015;205:676-680. doi:10.1016/j.sbspro.2015.09.106

By Amy Morin, LCSW Amy Morin, LCSW, is the Editor-in-Chief of Verywell Mind. She's also a psychotherapist, an international bestselling author of books on mental strength and host of The Verywell Mind Podcast. She delivered one of the most popular TEDx talks of all time.

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Child cognitive development is a fascinating and complex process that entails the growth of a child’s mental abilities, including their ability to think, learn, and solve problems. This development occurs through a series of stages that can vary among individuals. As children progress through these stages, their cognitive abilities and skills are continuously shaped by a myriad of factors such as genetics, environment, and experiences. Understanding the nuances of child cognitive development is essential for parents, educators, and professionals alike, as it provides valuable insight into supporting the growth of the child’s intellect and overall well-being.

Throughout the developmental process, language and communication play a vital role in fostering a child’s cognitive abilities . As children acquire language skills, they also develop their capacity for abstract thought, reasoning, and problem-solving. It is crucial for parents and caregivers to be mindful of potential developmental delays, as early intervention can greatly benefit the child’s cognitive development. By providing stimulating environments, nurturing relationships, and embracing diverse learning opportunities, adults can actively foster healthy cognitive development in children.

Key Takeaways

• Child cognitive development involves the growth of mental abilities and occurs through various stages.
• Language and communication are significant factors in cognitive development , shaping a child’s ability for abstract thought and problem-solving.
• Early intervention and supportive environments can play a crucial role in fostering healthy cognitive development in children.

Child Cognitive Development Stages

Child cognitive development is a crucial aspect of a child’s growth and involves the progression of their thinking, learning, and problem-solving abilities. Swiss psychologist Jean Piaget developed a widely recognized theory that identifies four major stages of cognitive development in children.

Sensorimotor Stage

The Sensorimotor Stage occurs from birth to about 2 years old. During this stage, infants and newborns learn to coordinate their senses (sight, sound, touch, etc.) with their motor abilities. Their understanding of the world begins to develop through their physical interactions and experiences. Some key milestones in this stage include object permanence, which is the understanding that an object still exists even when it’s not visible, and the development of intentional actions.

Preoperational Stage

The Preoperational Stage takes place between the ages of 2 and 7 years old. In this stage, children start to think symbolically, and their language capabilities rapidly expand. They also develop the ability to use mental images, words, and gestures to represent the world around them. However, their thinking is largely egocentric, which means they struggle to see things from other people’s perspectives. During this stage, children start to engage in pretend play and begin to grasp the concept of conservation, recognizing that certain properties of objects (such as quantity or volume) remain the same even if their appearance changes.

Concrete Operational Stage

The Concrete Operational Stage occurs between the ages of 7 and 12 years old. At this stage, children’s cognitive development progresses to more logical and organized ways of thinking. They can now consider multiple aspects of a problem and better understand the relationship between cause and effect . Furthermore, children become more adept at understanding other people’s viewpoints, and they can perform basic mathematical operations and understand the principles of classification and seriation.

Formal Operational Stage

Lastly, the Formal Operational Stage typically begins around 12 years old and extends into adulthood. In this stage, children develop the capacity for abstract thinking and can consider hypothetical situations and complex reasoning. They can also perform advanced problem-solving and engage in systematic scientific inquiry. This stage allows individuals to think about abstract concepts, their own thought processes, and understand the world in deeper, more nuanced ways.

By understanding these stages of cognitive development, you can better appreciate the complex growth process that children undergo as their cognitive abilities transform and expand throughout their childhood.

Key Factors in Cognitive Development

Genetics and brain development.

Genetics play a crucial role in determining a child’s cognitive development. A child’s brain development is heavily influenced by genetic factors, which also determine their cognitive potential , abilities, and skills. It is important to understand that a child’s genes do not solely dictate their cognitive development – various environmental and experiential factors contribute to shaping their cognitive abilities as they grow and learn.

Environmental Influences

The environment in which a child grows up has a significant impact on their cognitive development. Exposure to various experiences is essential for a child to develop essential cognitive skills such as problem-solving, communication, and critical thinking. Factors that can have a negative impact on cognitive development include exposure to toxins, extreme stress, trauma, abuse, and addiction issues, such as alcoholism in the family.

Nutrition and Health

Maintaining good nutrition and health is vital for a child’s cognitive development. Adequate nutrition is essential for the proper growth and functioning of the brain . Key micronutrients that contribute to cognitive development include iron, zinc, and vitamins A, C, D, and B-complex vitamins. Additionally, a child’s overall health, including physical fitness and immunity, ensures they have the energy and resources to engage in learning activities and achieve cognitive milestones effectively .

Emotional and Social Factors

Emotional well-being and social relationships can also greatly impact a child’s cognitive development. A supportive, nurturing, and emotionally healthy environment allows children to focus on learning and building cognitive skills. Children’s emotions and stress levels can impact their ability to learn and process new information. Additionally, positive social interactions help children develop important cognitive skills such as empathy, communication, and collaboration.

In summary, cognitive development in children is influenced by various factors, including genetics, environmental influences, nutrition, health, and emotional and social factors. Considering these factors can help parents, educators, and policymakers create suitable environments and interventions for promoting optimal child development.

Language and Communication Development

Language skills and milestones.

Children’s language development is a crucial aspect of their cognitive growth. They begin to acquire language skills by listening and imitating sounds they hear from their environment. As they grow, they start to understand words and form simple sentences.

• Infants (0-12 months): Babbling, cooing, and imitating sounds are common during this stage. They can also identify their name by the end of their first year. Facial expressions play a vital role during this period, as babies learn to respond to emotions.
• Toddlers (1-3 years): They rapidly learn new words and form simple sentences. They engage more in spoken communication, constantly exploring their language environment.
• Preschoolers (3-5 years): Children expand their vocabulary, improve grammar, and begin participating in more complex conversations.

It’s essential to monitor children’s language development and inform their pediatrician if any delays or concerns arise.

Nonverbal Communication

Nonverbal communication contributes significantly to children’s cognitive development. They learn to interpret body language, facial expressions, and gestures long before they can speak. Examples of nonverbal communication in children include:

• Eye contact: Maintaining eye contact while interacting helps children understand emotions and enhances communication.
• Gestures: Pointing, waving goodbye, or using hand signs provide alternative ways for children to communicate their needs and feelings.
• Body language: Posture, body orientation, and movement give clues about a child’s emotions and intentions.

Teaching children to understand and use nonverbal communication supports their cognitive and social development.

Parent and Caregiver Interaction

Supportive interaction from parents and caregivers plays a crucial role in children’s language and communication development. These interactions can improve children’s language skills and overall cognitive abilities . Some ways parents and caregivers can foster language development are:

• Reading together: From an early age, reading books to children enhance their vocabulary and listening skills.
• Encouraging communication: Ask open-ended questions and engage them in conversations to build their speaking skills.
• Using rich vocabulary: Expose children to a variety of words and phrases, promoting language growth and understanding.

By actively engaging in children’s language and communication development, parents and caregivers can nurture cognitive, emotional, and social growth.

Cognitive Abilities and Skills

Cognitive abilities are the mental skills that children develop as they grow. These skills are essential for learning, adapting, and thriving in modern society. In this section, we will discuss various aspects of cognitive development, including reasoning and problem-solving, attention and memory, decision-making and executive function, as well as academic and cognitive milestones.

Reasoning and Problem Solving

Reasoning is the ability to think logically and make sense of the world around us. It’s essential for a child’s cognitive development, as it enables them to understand the concept of object permanence , recognize patterns, and classify objects. Problem-solving skills involve using these reasoning abilities to find solutions to challenges they encounter in daily life .

Children develop essential skills like:

• Logical reasoning : The ability to deduce conclusions from available information.
• Perception: Understanding how objects relate to one another in their environment.
• Schemes: Organizing thoughts and experiences into mental categories.

Attention and Memory

Attention refers to a child’s ability to focus on specific tasks, objects, or information, while memory involves retaining and recalling information. These cognitive abilities play a critical role in children’s learning and academic performance . Working memory is a vital component of learning, as it allows children to hold and manipulate information in their minds while solving problems and engaging with new tasks.

• Attention: Focuses on relevant tasks and information while ignoring distractions.
• Memory: Retains and retrieves information when needed.

Decision-Making and Executive Function

Decision-making is the process of making choices among various alternatives, while executive function refers to the higher-order cognitive processes that enable children to plan, organize, and adapt in complex situations. Executive function encompasses components such as:

• Inhibition: Self-control and the ability to resist impulses.
• Cognitive flexibility: Adapting to new information or changing circumstances.
• Planning: Setting goals and devising strategies to achieve them.

Academic and Cognitive Milestones

Children’s cognitive development is closely linked to their academic achievement. As they grow, they achieve milestones in various cognitive domains that form the foundation for their future learning. Some of these milestones include:

• Language skills: Developing vocabulary, grammar, and sentence structure.
• Reading and mathematics: Acquiring the ability to read and comprehend text, as well as understanding basic mathematical concepts and operations.
• Scientific thinking: Developing an understanding of cause-and-effect relationships and forming hypotheses.

Healthy cognitive development is essential for a child’s success in school and life. By understanding and supporting the development of their cognitive abilities, we can help children unlock their full potential and prepare them for a lifetime of learning and growth.

Developmental Delays and Early Intervention

Identifying developmental delays.

Developmental delays in children can be identified by monitoring their progress in reaching cognitive, linguistic, physical, and social milestones. Parents and caregivers should be aware of developmental milestones that are generally expected to be achieved by children at different ages, such as 2 months, 4 months, 6 months, 9 months, 18 months, 1 year, 2 years, 3 years, 4 years, and 5 years. Utilizing resources such as the “Learn the Signs. Act Early.” program can help parents and caregivers recognize signs of delay early in a child’s life.

Resources and Support for Parents

There are numerous resources available for parents and caregivers to find information on developmental milestones and to learn about potential developmental delays, including:

• Learn the Signs. Act Early : A CDC initiative that provides pdf checklists of milestones and resources for identifying delays.
• Parental support groups : Local and online communities dedicated to providing resources and fostering connections between families experiencing similar challenges.

Professional Evaluations and Intervention Strategies

If parents or caregivers suspect a developmental delay, it is crucial to consult with healthcare professionals or specialists who can conduct validated assessments of the child’s cognitive and developmental abilities. Early intervention strategies, such as the ones used in broad-based early intervention programs , have shown significant positive impacts on children with developmental delays to improve cognitive development and outcomes.

Professional evaluations may include:

• Pediatricians : Primary healthcare providers who can monitor a child’s development and recommend further assessments when needed.
• Speech and language therapists : Professionals who assist children with language and communication deficits.
• Occupational therapists : Experts in helping children develop or improve on physical and motor skills, as well as social and cognitive abilities.

Depending on the severity and nature of the delays, interventions may involve:

• Individualized support : Tailored programs or therapy sessions specifically developed for the child’s needs.
• Group sessions : Opportunities for children to learn from and interact with other children experiencing similar challenges.
• Family involvement : Parents and caregivers learning support strategies to help the child in their daily life.

Fostering Healthy Cognitive Development

Play and learning opportunities.

Encouraging play is crucial for fostering healthy cognitive development in children . Provide a variety of age-appropriate games, puzzles, and creative activities that engage their senses and stimulate curiosity. For example, introduce building blocks and math games for problem-solving skills, and crossword puzzles to improve vocabulary and reasoning abilities.

Playing with others also helps children develop social skills and better understand facial expressions and emotions. Provide opportunities for cooperative play, where kids can work together to achieve a common goal, and open-ended play with no specific rules to boost creativity.

Supportive Home Environment

A nurturing and secure home environment encourages healthy cognitive growth. Be responsive to your child’s needs and interests, involving them in everyday activities and providing positive reinforcement. Pay attention to their emotional well-being and create a space where they feel safe to ask questions and explore their surroundings.

Promoting Independence and Decision-Making

Support independence by allowing children to make decisions about their playtime, activities, and daily routines. Encourage them to take age-appropriate responsibilities and make choices that contribute to self-confidence and autonomy. Model problem-solving strategies and give them opportunities to practice these skills during play, while also guiding them when necessary.

Healthy Lifestyle Habits

Promote a well-rounded lifestyle, including:

• Sleep : Ensure children get adequate and quality sleep by establishing a consistent bedtime routine.
• Hydration : Teach the importance of staying hydrated by offering water frequently, especially during play and physical activities.
• Screen time : Limit exposure to electronic devices and promote alternative activities for toddlers and older kids.
• Physical activity : Encourage children to engage in active play and exercise to support neural development and overall health .

Frequently Asked Questions

What are the key stages of child cognitive development.

Child cognitive development can be divided into several key stages based on Piaget’s theory of cognitive development . These stages include the sensorimotor stage (birth to 2 years), preoperational stage (2-7 years), concrete operational stage (7-11 years), and formal operational stage (11 years and beyond). Every stage represents a unique period of cognitive growth, marked by the development of new skills, thought processes, and understanding of the world.

What factors influence cognitive development in children?

Several factors contribute to individual differences in child cognitive development, such as genetic and environmental factors. Socioeconomic status, access to quality education, early home environment, and parental involvement all play a significant role in determining cognitive growth. In addition, children’s exposure to diverse learning experiences, adequate nutrition, and mental health also influence overall cognitive performance .

How do cognitive skills vary during early childhood?

Cognitive skills in early childhood evolve as children progress through various stages . During the sensorimotor stage, infants develop fundamental skills such as object permanence. The preoperational stage is characterized by the development of symbolic thought, language, and imaginative play. Children then enter the concrete operational stage, acquiring the ability to think logically and solve problems. Finally, in the formal operational stage, children develop abstract reasoning abilities, complex problem-solving skills and metacognitive awareness.

What are common examples of cognitive development?

Examples of cognitive development include the acquisition of language and vocabulary, the development of problem-solving skills, and the ability to engage in logical reasoning. Additionally, memory, attention, and spatial awareness are essential aspects of cognitive development. Children may demonstrate these skills through activities like puzzle-solving, reading, and mathematics.

How do cognitive development theories explain children’s learning?

Piaget’s cognitive development theory suggests that children learn through active exploration, constructing knowledge based on their experiences and interactions with the world. In contrast, Vygotsky’s sociocultural theory emphasizes the role of social interaction and cultural context in learning. Both theories imply that cognitive development is a dynamic and evolving process, influenced by various environmental and psychological factors.

Why is it essential to support cognitive development in early childhood?

Supporting cognitive development in early childhood is critical because it lays a strong foundation for future academic achievement, social-emotional development, and lifelong learning. By providing children with diverse and enriching experiences, caregivers and educators can optimize cognitive growth and prepare children to face the challenges of today’s complex world. Fostering cognitive development early on helps children develop resilience, adaptability, and critical thinking skills essential for personal and professional success.

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How to Teach Problem-Solving Skills to Children and Preteens

• By Ashley Cullins

Whether it’s a toy-related conflict, a tough math equation, or negative peer pressure, kids of ALL ages face problems and challenges on a daily basis.

As parents or teachers, we can’t always be there to solve every problem for our children. In fact, this isn’t our job. Our job is to TEACH our children how to solve problems by themselves . This way, they can become confident , independent, and successful individuals.

Instead of giving up or getting frustrated when they encounter a challenge, kids with problem-solving skills manage their emotions, think creatively, and persist until they find a solution. Naturally, these abilities go hand-in-hand with a  growth mindset .

Before you continue, we thought you might like to download our FREE Your Words Matter Volume 2 Kit . With these 10 one-page parenting guides, you will know exactly how to speak to your child to help them stand up for themselves, be more confident, and develop a growth mindset.

So HOW do you teach problem-solving skills to kids?

Well, it depends on their age . As cognitive abilities and the size of the child’s challenges grow/evolve over time, so should your approach to teaching problem-solving skills.

Read on to learn key strategies for teaching problem-solving to kids, as well as some age-by-age ideas and activities.

3 General Strategies to Teach Problem-Solving at Any Age

1. model effective problem-solving .

When YOU encounter a challenge, do a “think-aloud” for the benefit of your child. MODEL how to apply the same problem-solving skills you’ve been working on together, giving the real-world examples that she can implement in her own life.

At the same time, show your child a willingness to make mistakes . Everyone encounters problems, and that’s okay. Sometimes the first solution you try won’t work, and that’s okay too!  

When you model problem-solving, explain that there are some things that are out of our control. As we're solving a problem at hand we should focus on the things we CAN actually control.

You and your child can listen to Episode 35  of the Big Life Kids Podcast to learn about focusing on what you can control.

2. Ask for Advice

Ask your kids for advice when you have a problem. This teaches them that it’s common to make mistakes and face challenges. It also gives them the opportunity to practice problem-solving skills.

Plus, when you indicate that their ideas are valued ,  they’ll gain the confidence to attempt solving problems on their own.

3. Don’t Provide “The Answer”

As difficult as it may be, allow your child to struggle, sometimes fail , and ultimately LEARN  from experiencing consequences.

Now, let’s take a look at some age-specific strategies and activities. The ages listed below are general guidelines, feel free to choose any strategies or activities that you feel will work for YOUR child.

Use Emotion Coaching

To step into a problem-solving mindset, young children need to first learn to  manage their emotions . After all, it’s difficult for a small child to logically consider solutions to a problem if he’s mid-tantrum.

One way to accomplish this is by using the  emotion coaching process  outlined by John Gottman.

First,  teach your kids that ALL emotions are acceptable. There are NO “bad” emotions. Even seemingly negative emotions like anger, sadness, and frustration can teach us valuable lessons. What matters is how we  respond  to these emotions.

Second,   follow this process:

• Step One: Naming and validating emotions.  When your child is upset, help her process the way she’s feeling. Say something like,  “I understand that you’re upset because Jessica is playing with the toy you wanted.”
• Step Two:   Processing  emotions.  Guide your child to her  calming space. If she doesn't have one, it's a good idea to create one.  Let her calm her body and process her emotions so she can problem-solve, learn, and grow. 
• Step Three: Problem Solving.  Brainstorm solutions with your child, doing more   LISTENING   than talking during the conversation. This allows your child to practice her problem-solving skills, and she’s more likely to actually implement the solutions she came up with herself.

Say, “Show Me the Hard Part”

When your child struggles or feels frustrated, try a technique suggested by mom and parenting blogger Lauren Tamm . Simply say, “Show me the hard part.”

This helps your child identify the ROOT   of the problem, making it less intimidating and easier to solve.

Repeat back what your child says,  “So you’re saying…”

Once you both understand the real problem, prompt your child to come up with solutions . “There must be some way you can fix that…” or  “There must be something you can do…”

Now that your child has identified “the hard part,” she’ll likely be able to come up with a solution. If not, help her brainstorm some ideas. You may try asking the question, “If you DID  know, what would you think?” and see what she comes up with.

Problem-Solve with Creative Play

Allow your child to choose activities and games based on her  interests . Free play provides plenty of opportunities to navigate and creatively solve problems.

Children often learn best through play. Playing with items like blocks, simple puzzles, and dress-up clothes can teach your child the process of problem-solving.

Even while playing, your child thinks critically:  Where does this puzzle piece fit? What does this do? I want to dress up as a queen. What should I wear?   Where did I put my tiara? Is it under the couch?

Problem-Solve with Storybooks

Read age-appropriate stories featuring characters who experience problems, such as:

• Ladybug Girl and Bumblebee Boy by Jacky Davis: The story of two friends who want to play together but can’t find a game to agree on. After taking turns making suggestions, they arrive at a game they both want to play: Ladybug Girl and Bumblebee Boy.
• The Curious George Series by Margaret and H.E. Rey: A curious little monkey gets into and out of dilemmas, teaching kids to find solutions to problems of their own.
• Ira Sleeps Over by Bernard Waber: Ira’s thrilled to have a sleepover at his friend Reggie’s house. But there’s one problem: Should he or should he not bring his teddy bear? It may seem small, but this is the type of early social problem your child might relate to.

Connect these experiences to similar events in your child’s own life, and ASK your child HOW the characters in these stories could solve their problems. Encourage a variety of solutions, and discuss the possible outcomes of each.

This is a form of dialogue reading , or actively ENGAGING   your child in the reading experience. Interacting with the text instead of passively listening can “turbocharge” the development of literacy skills such as comprehension in preschool-aged children.

By asking questions about the characters’ challenges, you can also give your child’s problem-solving abilities a boost.

You can even have your child role-play the problem and potential solutions to reinforce the lesson.  

For book suggestions, refer to our Top 85 Growth Mindset Books for Children & Adults list.

Teach the Problem-Solving Steps

Come up with a simple problem-solving process for your child, one that you can consistently implement. For example, you might try the following five steps:

• Step 1: What am I feeling?  Help your child understand what she’s feeling in the moment (frustration, anger, curiosity, disappointment, excitement, etc.)  Noticing and naming emotions will diffuse  their charge and give your child a chance to take a step back.
• Step 2: What’s the problem?  Guide your child to identify the specific problem. In most cases, help her take responsibility for what happened rather than pointing fingers. For instance, instead of, “Joey got me in trouble at recess,” your child might say, “I got in trouble at recess for arguing with Joey.”
• Step 3:   What are the solutions?  Encourage your child to come up with as many solutions as possible. At this point, they don’t even need to be “good” solutions. They’re just brainstorming here, not yet evaluating the ideas they’ve generated.
• Step 4: What would happen if…? What would happen if your child attempted each of these solutions? Is the solution safe and fair? How will it make others feel? You can also try role-playing at this step. It’s important for your child to consider BOTH  positive and negative consequences of her actions.
• Step 5: Which one will I try?  Ask your child to pick one or more solutions to try. If the solution didn't work, discuss WHY and move on to another one. Encourage your child to keep trying until the problem is solved. 

Consistently practice these steps so that they become second nature, and model solving problems of your own the same way.  It's a good idea to   reflect :   What worked? What didn’t? What can you do differently next time?

Problem-Solve with Craft Materials

Crafting is another form of play that can teach kids to solve problems creatively.

Provide your child with markers, modeling clay, cardboard boxes, tape, paper, etc. They’ll come up with all sorts of interesting creations and inventive games with these simple materials.

These “open-ended toys” don’t have a “right way to play,” allowing your child to get creative and generate ideas independently .

Ask Open-Ended Questions

Asking open-ended questions improves a child’s ability to think critically and creatively, ultimately making them better problem-solvers. Examples of open-ended questions include:

• How could we work together to solve this?
• How did you work it out? or How do you know that?
• Tell me about what you built, made, or created.
• What do you think will happen next?
• What do you think would happen if…?
• What did you learn?
• What was easy? What was hard?
• What would you do differently next time?

Open-ended questions have no right answer and can’t be answered with a simple “Yes” or “No.”

You can ask open-ended questions even when your child isn’t currently solving a problem to help her practice her thinking skills, which will come in handy when she does have a problem to solve.

If you need some tips on how to encourage a growth mindset in your child, don't forget to download our FREE Your Words Matter Volume 2 Kit .

Break Down Problems into Chunks

This strategy is a more advanced version of “Show me the hard part.”

The bigger your child gets, the bigger her problems get too. When your child is facing a challenge that seems overwhelming or insurmountable, encourage her to break it into smaller, more manageable chunks.

For instance, let’s say your child has a poor grade in history class. Why is the grade so low? What are the causes of this problem?

As usual, LISTEN as your child brainstorms, asking open-ended questions to help if she gets stuck.

If the low grade is the result of missing assignments, perhaps your child can make a list of these assignments and tackle them one at a time. Or if tests are the issue, what’s causing your child to struggle on exams?

Perhaps she’s distracted by friends in the class, has trouble asking for help, and doesn’t spend enough time studying at home. Once you’ve identified these “chunks,” help your child tackle them one at a time until the problem is solved.

Show “ The Broken Escalator Video ”

Discuss the importance of embracing challenges and solving problems independently with the “broken escalator video.”

In the video, an escalator unexpectedly breaks. The people on the escalator are “stuck” and yelling for help. At this age, it’s likely that your child will find the video funny and immediately offer a solution: “Just walk! Get off the escalator!”

Tell your child that this is a simple example of how people sometimes act in difficult situations. Ask, “Why do you think they didn’t get off the escalator?” (they didn’t know how, they were waiting for help, etc.)

Sometimes, your child might feel “stuck” when facing problems. They may stop and ask for help before even attempting to find a solution. Encourage your child to embrace challenges and work through problems instead.

Problem-Solve with Prompts

Provide your child or a group of children with materials such as straws, cotton balls, yarn, clothespins, tape, paper clips, sticky notes, Popsicle sticks, etc.

With just these materials, challenge your kids to solve unusual problems like:

• Make a leprechaun trap
• Create a jump ramp for cars
• Design your own game with rules
• Make a device for two people to communicate with one another

This is a fun way to practice critical thinking and creative problem-solving. Most likely, it will take multiple attempts to find a solution that works, which can apply to just about any aspect of life.

Make Them Work for It

When your child asks for a new toy, technology, or clothes, have her make a plan to obtain the desired item herself. Not only will your child have to brainstorm and evaluate solutions, but she’ll also gain confidence .

Ask your child HOW she can earn the money for the item that she wants, and encourage her as she works toward her goal .

Put It on Paper

Have your child write out their problems on paper and brainstorm some potential solutions.

But now, she takes this process a step further: After attempting each solution, which succeeded? Which were unsuccessful? Why ?

This helps your child reflect on various outcomes, learning what works and what doesn’t. The lessons she learns here will be useful when she encounters similar problems in the future.

Play Chess Together

Learning to play chess is a great way for kids to learn problem-solving AND build their brains at the same time. It requires players to use critical thinking, creativity, analysis of the board, recognize patterns, and more. There are online versions of the game, books on how to play, videos, and other resources. Don’t know how to play? Learn with your teen to connect and problem solve together!

Have Them Learn To Code

Our teens and tweens are already tech-savvy and can use their skills to solve problems by learning to code. Coding promotes creativity, logic, planning, and persistence . There are many great tools and online or in-person programs that can boost your child’s coding skills.

Encourage to Start a Meaningful Project

This project has to be meaningful to your teen, for example starting a YouTube channel. Your teen will practice problem-solving skills as they’re figuring out how to grow their audience, how to have their videos discovered, and much more. 

In the Big Life Journal - Teen Edition , there’s a section that guides them through planning their YouTube channel and beginning the problem-solving process.

Apply the SODAS Method

Looking for a game plan that your teen can employ when faced with a problem? The SODAS method can be used for big or small problems. Just remember this simple acronym and follow these ideas:

• D isadvantages
• A dvantages

Encourage to Join Problem-Solving Groups

Does your teen enjoy solving problems in a team? Have them join a group or club that helps them hone their skills in a variety of settings--from science and robotics to debating and international affairs. Some examples of groups include: 

• Odyssey of the Mind
• Debate team
• Science Olympiad

Looking for additional resources?  The Bestseller’s Bundle includes our three most popular printable kits packed with science-based activities, guides, and crafts for children. Our Growth Mindset Kit, Resilience Kit, and Challenges Kit work together as a comprehensive system designed specifically for children ages 5-11.

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25 thoughts on “ How to Teach Problem-Solving Skills to Children and Preteens ”

I love, love, love the point about emotional coaching. It’s so important to identify how children are feeling about a problem and then approach the solutions accordingly.

Thank you for putting this together. I wrote an article on problem-solving specifically from the point of view of developing a STEM aptitude in kids, if you like to check it out – https://kidpillar.com/how-to-teach-problem-solving-to-your-kids-5-8-years/

I feel that these techniques will work for my kid.. Worthy.. Thank you

I love you guys

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Developing Problem-Solving Skills for Kids | Strategies & Tips

We've made teaching problem-solving skills for kids a whole lot easier! Keep reading and comment below with any other tips you have for your classroom!

Problem-Solving Skills for Kids: The Real Deal

Picture this: You've carefully created an assignment for your class. The step-by-step instructions are crystal clear. During class time, you walk through all the directions, and the response is awesome. Your students are ready! It's finally time for them to start working individually and then... 8 hands shoot up with questions. You hear one student mumble in the distance, "Wait, I don't get this" followed by the dreaded, "What are we supposed to be doing again?"

When I was a new computer science teacher, I would have this exact situation happen. As a result, I would end up scrambling to help each individual student with their problems until half the class period was eaten up. I assumed that in order for my students to learn best, I needed to be there to help answer questions immediately so they could move forward and complete the assignment.

Here's what I wish I had known when I started teaching coding to elementary students - the process of grappling with an assignment's content can be more important than completing the assignment's product. That said, not every student knows how to grapple, or struggle, in order to get to the "aha!" moment and solve a problem independently. The good news is, the ability to creatively solve problems is not a fixed skill. It can be learned by students, nurtured by teachers, and practiced by everyone!

Your students are absolutely capable of navigating and solving problems on their own. Here are some strategies, tips, and resources that can help:

Problem-Solving Skills for Kids: Student Strategies

These are strategies your students can use during independent work time to become creative problem solvers.

1. Go Step-By-Step Through The Problem-Solving Sequence 

Post problem-solving anchor charts and references on your classroom wall or pin them to your Google Classroom - anything to make them accessible to students. When they ask for help, invite them to reference the charts first.

2. Revisit Past Problems

If a student gets stuck, they should ask themself, "Have I ever seen a problem like this before? If so, how did I solve it?" Chances are, your students have tackled something similar already and can recycle the same strategies they used before to solve the problem this time around.

3. Document What Doesn’t Work

Sometimes finding the answer to a problem requires the process of elimination. Have your students attempt to solve a problem at least two different ways before reaching out to you for help. Even better, encourage them write down their "Not-The-Answers" so you can see their thought process when you do step in to support. Cool thing is, you likely won't need to! By attempting to solve a problem in multiple different ways, students will often come across the answer on their own.

4. "3 Before Me"

Let's say your students have gone through the Problem Solving Process, revisited past problems, and documented what doesn't work. Now, they know it's time to ask someone for help. Great! But before you jump into save the day, practice "3 Before Me". This means students need to ask 3 other classmates their question before asking the teacher. By doing this, students practice helpful 21st century skills like collaboration and communication, and can usually find the info they're looking for on the way.

Problem-Solving Skills for Kids: Teacher Tips

These are tips that you, the teacher, can use to support students in developing creative problem-solving skills for kids.

1. Ask Open Ended Questions

When a student asks for help, it can be tempting to give them the answer they're looking for so you can both move on. But what this actually does is prevent the student from developing the skills needed to solve the problem on their own. Instead of giving answers, try using open-ended questions and prompts. Here are some examples:

2. Encourage Grappling

Grappling  is everything a student might do when faced with a problem that does not have a clear solution. As explained in this article from Edutopia , this doesn't just mean perseverance! Grappling is more than that - it includes critical thinking, asking questions, observing evidence, asking more questions, forming hypotheses, and constructing a deep understanding of an issue.

There are lots of ways to provide opportunities for grappling. Anything that includes the Engineering Design Process is a good one! Examples include:

• Engineering or Art Projects
• Design-thinking challenges
• Computer science projects
• Science experiments

3. Emphasize Process Over Product

For elementary students, reflecting on the process of solving a problem helps them develop a growth mindset . Getting an answer "wrong" doesn't need to be a bad thing! What matters most are the steps they took to get there and how they might change their approach next time. As a teacher, you can support students in learning this reflection process.

4. Model The Strategies Yourself! 

As creative problem-solving skills for kids are being learned, there will likely be moments where they are frustrated or unsure. Here are some easy ways you can model what creative problem-solving looks and sounds like.

• Ask clarifying questions if you don't understand something
• Admit when don't know the correct answer
• Talk through multiple possible outcomes for different situations 
• Verbalize how you’re feeling when you find a problem

Practicing these strategies with your students will help create a learning environment where grappling, failing, and growing is celebrated!

Problem-Solving Skill for Kids

Did we miss any of your favorites? Comment and share them below!

Looking to add creative problem solving to your class?

Learn more about Kodable's free educator plan or create your free account today to get your students coding!

Kodable has everything you need to teach kids to code!

In just a few minutes a day, kids can learn all about the fundamentals of Computer Science - and so much more! With lessons ranging from zero to JavaScript, Kodable equips children for a digital future.

17 Fun Problem Solving Activities for Kids

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As a child, I would spend hours putting together puzzles… whether it was 3-D puzzles or figuring out a crossword. I also loved it when teachers would give the class an open-ended question and we had to work in groups to figure out the answer in our own way.

Even something as simple as playing checkers with my brothers gave me the chance to use strategy as a way to win the game. I honestly believe that it’s so important for kids to solve problems at a young age, as it helps them think critically and outside the box.

Table of Contents

So, Why Is It Important To Teach Kids Problem Solving?

I think these kinds of activities are so important for kids to do because it helps them learn how to think analytically and solve problems on their own. It's a great way to get kids to use their imaginations and be creative.

Rote memorization simply does not have the same effect. This type of learning is great for learning facts like historical dates, but it’s not going to help kids figure out how events in history happened and the results.

We take these problem-solving skills into college, the workforce, and travel . My ability to problem solve since childhood has certainly got me through many sticky situations while in a new city or country.

Additionally, problem-solving helps children learn how to find creative solutions to challenges they may face both in and out of the classroom . These activities can also be fun and used in cohesion with school or playtime.

17 Fun Problem-Solving Activities for Kids

1. marble mazes.

This activity was selected because it requires them to think spatially. Spatial learning will benefit kids when they start driving, riding a bike, playing sports,etc.

To do this activity in its simplest form, you will need a piece of paper, a pencil, and some marbles. First, draw a maze on a piece of paper using a pencil.

Make sure to create a start and finish point. Then, place the marbles at the start of the maze. The goal is to get the marbles from the start to the finish by tilting the paper and using gravity to guide the marbles through the maze.

Another example of a marble maze can involve using toilet paper rolls taped together to create a three-dimensional maze. The larger the maze, the harder you can make it.

Check Price on Amazon!

If you are not into the DIY method, you can always buy a toy maze on Amazon. A good 48 piece puzzle is the Melissa & Doug Underwater Ocean Floor puzzle.

2. The Tower Challenge

Building a tower gives kids the chance to think about gravity, structure, and balance.

To do this activity, you will need some building materials like legos, blocks, or even toilet paper rolls. The challenge is to see how high they can stack the materials without the tower toppling over.

This can be done individually or in teams. An activity like this is good for younger kids and is the building block to learning about harder topics like engineering.

3. The Egg Drop Challenge

The egg drop challenge helps kids learn how to engineer a solution that prevents something from breaking. It requires them to think critically about which materials will best protect something fragile like an egg when dropped from a height.

To do this activity, you will need some eggs and various materials such as straws, cotton balls, bubble wrap, etc. The goal is to construct a device that will protect an egg from breaking upon impact.

This can be done individually or in teams . Teams can even have a competition for the best egg drop device.

As children begin handling, shopping for, and cooking their own food, activities like this will help them understand how to handle breakable items like bottles, eggs, delicate fruit,.etc. Ideally, this is best for age groups 8 and up.

4. The Penny Drop Challenge

This activity was selected because it requires kids to think about physics and how different materials affect sound.

To do this activity, you will need a penny ( or another coin), a cup, and various materials such as paper towels, cotton balls, etc.

The goal is to drop the penny into the cup without making any noise. Begin by placing different materials into the cup and then drop the penny into it. The children should also drop the penny from different heights into the same material to see if/how the impact from a higher drop affects sound.

Group kids into teams or let them try it on their own.

Kids should make note of what type of sounds are made when the penny hits different materials. This is a great activity for kids who are interested in science and physics.

5. The Balloon Race Challenge

This activity was selected because it helps kids learn about aerodynamics and Bernoulli’s principle . It also requires them to think creatively about how to design a balloon-powered vehicle.

To do this activity, you will need balloons, straws, masking tape, and markers. The goal is to design a balloon-powered vehicle that can travel a distance of at least 10 feet. Kids can begin this activity by sketching out their designs on paper.

After they have a basic design, they can begin building their vehicle from various materials. Then kids can explain why they think the balloon traveled or did not travel as far as it did.

6. The Marshmallow Challenge

Marshmallows are not only delicious, but they are also soft and malleable. So kids can have fun using it for some construction projects.

This activity was selected because it requires kids to think creatively about how to build a structure using limited materials. It also helps them learn about engineering and work as a team.

To do this activity, you will need marshmallows and spaghetti noodles. The goal is to build the tallest free-standing structure possible using only marshmallows and spaghetti noodles. If you don't have spaghetti noodles, use something similar like pretzel sticks.

You may even want to establish certain rules like each team can only use a certain number of marshmallows or noodles. A time limit can also make it more fun and challenging.

For more fun activities, check out our post on problem solving exercises for team building .

7. The Balloon Pop Challenge

If you remember your childhood, you probably remember popping balloons for fun at times. But this activity is different because it requires kids to use strategy and critical thinking.

This activity was selected because it helps kids learn about patterns and problem-solving. It is also a lot of fun for kids who like popping balloons. The goal is to create a device that will allow them to pop a balloon without using their hands.

To do this activity, you will need balloons and various materials such as straws, string, paper clips, etc.

8. Picture Pieces Puzzle Game

As mentioned earlier, puzzles are a great pastime – especially in childhood. Kids must think critically about how to put the pieces together to create a certain picture. It also helps them learn about shapes, colors, and other concepts.

You can take a medium to large picture and cut it into pieces. If you have younger kids, you may want to make the pieces larger. However, if you have kids closer to the 8-11 age range, you should be able to provide a challenge and make the pieces smaller.

9. Copy the Block Model

For this challenge, you can build a model out of blocks for the kids to copy. Put kids into groups and make sure each group has the same number of blocks you used for your model.

Make your model block as simple or complex as needed for your child's age group.

Set a time limit and make sure each group starts at the same time.

10. Team Scavenger Hunt

A scavenger hunt is great for kids because they have to search for items and use investigative skills. It is also a lot of fun and can be done both indoors and outdoors .

To do this activity, you will need to create a list of items for the kids to find. The items can be anything from common household items to things you would find outside.

These types of activities can also revolve around a theme like a holiday, movie, or book. For example, if the kids are fans of “Harry Potter” you can make a list of items to find that are related to the movie.

11. Obstacle Course

This activity requires kids to think creatively about how to get from one point to another while maneuvering around obstacles. If you have outdoor space, this can be done with common objects such as hula hoops, cones, etc.

If you don't have access to an outdoor space, you can use common household items to create an indoor obstacle course. For example, you can use chairs, blankets, pillows, etc.

Begin by setting up the course and then timing each child as they complete it. You can also have them race against each other to make it more fun.

Obstacle courses are also great because kids get to be physically active while they are thinking critically.

12. Reading Storybooks

There are many great benefits for kids that read storybooks.  One of the excellent benefits is the ability to problem-solve.  When they read the stories in the books, they see scenarios that cause them to be attached to the various characters they read about. 

So, when they encounter a real-life problem, it is often productive to ask a child how their favorite character would solve that problem.  Your kids can also be encouraged to come up with various options and possible outcomes for some of the situations they may encounter. 

This not only helps kids solve various problems but become more independent as well. 

13. Ask Them Open-Ended Questions

A good way to improve a child's ability to think critically and creatively and improve their ability to solve problems is by asking open-ended questions.  It also helps them to develop healthy personalities .

There are no right or wrong answers to these questions.  In addition, the solution requires more than a simple “yes” or “no” answer.  Furthermore, it allows kids to put some extra thought into their responses. 

Here are some examples of open-ended questions you may want to ask. 

• What did this experience teach you?
• Was this easy?  What was easy about it?
• What this difficult?  What is complicated about it?
• What may happen next in this situation?
• How did you come to this solution?
• What, if anything, would you do differently next time?
• What can we do to make things more fun next time?

14. Build Various Structures with Toys

Whether wooden blocks, LEGO blocks, or engineering blocks… giving your kid blocks to build whatever their minds can dream up is fun.  In addition, it requires them to think about how they will make a structure, put the pieces together, and creatively ensure the building's function and design. 

You may also want to challenge them to build something more complicated and watch them use their brain power to make it happen. 

15. Acting Out Skits

Impromptu activities like acting out skits help kids identify problems, develop solutions, and execute them.  This process works with multiple kids being divided into teams. 

First, you will want to write down different situations, such as resolving a disagreement between siblings or dealing with bullying on the playground on a piece of paper.  Second, you will fold the paper and place it in a hat or bowl.  

Third, each team will pick a scenario out of the hat.  Finally, you can give the kids a few minutes to discuss their solution and act out. 

16. Solving Moral Dilemmas   

In this simple game, you will help your kids solve simple dilemmas they may find themselves in.  You could write down a situation your child may find themselves in and help them learn the moral way to solve the problem.   

For instance, “The cashier gave them an additional $5 change back on my purchase.  What should they do?”  Another scenario could be, “I saw my friend cheating on a test.  Should I tell on them or let it go?”  A third one could be, “I caught my friends stealing some gum from the store.  What should I do?” 

After writing down the dilemmas and placing them in a bowl, get each child to select one and read it aloud.  Finally, you will help them devise morally correct solutions to the moral dilemma. 

17. Animal Pairing Game  

This is a fun and creative game to help your kids with focus, critical thinking, and team building skills .  In addition, this activity requires an even number of players to participate (4, 6, 8, etc.) 

Before starting the game, you will want to write the names of different animals twice, each on a separate slip of paper.  Then pass out the slips of paper to each individual or team member, instructing them not to share with anyone the name of the animal they received. 

Then the children will perform activities the animals might do without talking or making sounds.  Some of these activities might include:

• The way the animal cleans or grooms itself
• The way the animal sleeps
• The way the animal fights
• The way the animal eats or drinks
• The way the animal walks or runs

The goal is for each child to successfully pair up with the other child who has selected the same animal.

How Problem Solving in Childhood Helps in Adulthood

Children are not born with problem-solving skills. It is something that needs to be learned and developed over time .

From babies who learn how to communicate their needs to toddlers who figure out how to get what they want, to children who are starting to understand the consequences of their actions – problem-solving is a process that begins in childhood and continues into adulthood.

Some of the benefits of teaching problem-solving skills to children include:

• Improved critical thinking skills
• Better decision-making skills
• Enhanced creativity
• Improved communication and collaboration skills
• Increased confidence

There are many ways to teach problem-solving skills to children. The activities mentioned above are just a few examples. It is important to find activities that are appropriate for the age and abilities of the child.

With practice, children will develop these skills and be better prepared to face challenges in both childhood and adulthood.

Final Thoughts About Fun Problem Solving Activities For Kids

These are just a few ideas to get you started on teaching your child crucial problem solving skills. Perhaps they’ve inspired to come with some of your own, or seek out others? The important thing is to make sure the activity is age-appropriate and challenging enough to engage the kids.

Problem-solving skills are important for kids to learn because they can be applied to various situations in life. These skills also promote critical thinking, which is an important life skill.

There are many other problem-solving activities for kids out there. In time, you’ll find the ones that work best for your child.  And be sure not to forget about your own needs and self-improvement, both of which will make you a better parent and mentor. Here are some useful activities for adults to get your started.

Finally, if you want to level up your parenting skills, then check out this resource that will show you how to get your kids to listen WITHOUT yelling, nagging, or losing control .

Heart-Mind Online

5-step problem solving for young children.

• Solves Problems Peacefully

Even young children can be taught to solve their problems peacefully with these 5 steps: 

Step One: How do you feel? Calm down. – Often when we encounter a problem, we feel frustrated or angry. Before we can solve our problem, we need to know how we are feeling and calm down. There are different ways to calm down; we could take a break, take three deep breaths, use " milkshake breathing [ 1 ] ".

Step Two: What is the Problem? – We need to know what the problem is before we can solve it. Why do you feel angry or upset? Remember this problem belongs to you, not other people.

Step Three: Come up with Solutions – It is helpful to think of as many different solutions to the problem as possible. Not every solution will work. A solution might work one time but not another time. The more problems you solve, the easier it is to think of solutions.

Step Four: What would happen? – Think about what would happen if you chose each of the solutions you came up with. Is the solution safe? A safe solution means no one will be hurt or upset. Is the solution fair? How will everyone feel?

Step Five: Try the Solution – Choose a solution. Try your solution. Did it solve the problem? If the solution does not solve the problem, you can try one of the other solutions you came up with.

Lesson Plan: Solving Problems Peacefully

Background & learning outcomes:.

This activity  [ 2 ] is written for children ages 4-6 for a child care setting, preschool, kindergarten or in the home. It can be adapted, however for other ages. By teaching children basic problem solving steps and providing opportunities for them to practice this skill, children can become competent problem solvers.

• Large paper and marker for writing solution ideas

Teaching and Learning Activities:

Introduce the topic of "problems." Ask children to share problems they have had recently. You can add your own examples of problems you have had or problems you have observed in the classroom.

Explain to the children that they can become expert problem solvers by using five problem solving steps.

Introduce and briefly explain each of the problem-solving steps.

Pick an example of a problem the children shared. Work through the problem with the children using the five problem solving steps.

Step 1: How do you feel? Calm down.  Ask the children to identify how they felt or how they might feel if this problem happened to them. Ask them for suggestions to calm down. Practice ways to calm down, like taking three deep breaths.

Step 2: What is the Problem?  Ask children to describe what the problem is. Help children to reframe the problem so it is defined as their problem, not someone else’s problem. For example: “I want to use the red crayon,” instead of, “they won’t share the red crayon.”

Step 3: Come up with Solutions.  Encourage children think of as many solutions as possible. In the beginning, you may need to help them with solutions. Write down the possible solutions. The focus at this step is just to generate as many solutions as possible, not to evaluate solutions.

Step 4: What would happen?  Ask children to think what would happen next if they chose a solution. Is the solution safe? A safe solution means no one will get hurt. Is the solution fair? How will everyone feel? Have the children go through the solutions they generated and think about what would happen next. Role playing the solutions can help children understand the possible consequences.

Step 5: Try the Solution.  Have the children pick a solution to the problem. Will the problem be resolved? The chosen solution can also be role played.

Adaptations:

• Accompanying each step with a visual cue is helpful, particularly for children with limited verbal skills.
• Depending on the age and attention span of the children, practicing the problem-solving steps using an example problem can be split into different lessons. Start by introducing the five steps in the first lesson, then in each subsequent lesson, practice one step.
• Role play different solutions to problems with children to help them understand the consequences of solutions.

Follow-Up Activities:

Once children have been taught these five steps to problem solving, they need opportunities to practice using them. These follow-up activities reinforce the problem-solving steps and provide practice opportunities:

Post visuals of the problem-solving steps in the room where they are visible for children to refer to on an ongoing basis.

Return to the problem solving steps regularly. Have the children provide other examples of problems they have encountered or create hypothetical problems that are relevant to their lives. Work through these problems as a class, using the problem solving steps.

When problems arise in the classroom, remind children to use their problem solving steps and guide them through the process. As they become more competent problem solvers, they will require less assistance to work through the steps.

Role model effective problem solving for your child.

Select children’s books where the characters encounter a problem. Ask the children how the character in the story could solve their problem. Encourage a variety of solutions. Have the children act out the problem and possible solutions. Book examples include:

A Good Day  (2007) by Kevin Henkes.  Bird, Fox, Dog, and Squirrel are not starting their day off very well. However, with a little patience, they find that they are able to overcome minor setbacks in order to have a very good day after all. Ages 0-6.

Bobby vs. Girls (accidentally)  (2009) by Lisa Yee.  Bobby and Holly have been best friends for years, until a disagreement threatens to break them up for good. However, when their argument accidentally sparks a full-out war between the boys and girls in their fourth-grade class, they must come up with a way to return things to normal. Ages 6-12.  

• Conflict Resolution
• Self-Regulation
• Early Years
• Middle Years

Learn more about "milkshake breathing" and ways to teach children this and other important calming skills.

Adapted from: Joseph, G.E. & Strain, P.S. (2010). Teaching Young Children Interpersonal Problem-Solving Skills. Young Exceptional Children, 13, 28-40.

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The Power of Playful Learning in the Early Childhood Setting

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Play versus learning represents a false dichotomy in education (e.g., Hirsh-Pasek & Golinkoff 2008). In part, the persistent belief that learning must be rigid and teacher directed—the opposite of play—is motivated by the lack of a clear definition of what constitutes playful learning (Zosh et al. 2018). And, in part, it is motivated by older perceptions of play and learning. Newer research, however, allows us to reframe the debate as learning via play—as playful learning.

This piece, which is an excerpt from Chapter 5 in  Developmentally Appropriate Practice in Early Childhood Programs Serving Children from Birth Through Age 8, Fourth Edition (NAEYC 2022), suggests that defining play on a spectrum (Zosh et al. 2018, an idea first introduced by Bergen 1988) helps to resolve old divisions and provides a powerful framework that puts  playful learning —rich curriculum coupled with a playful pedagogy—front and center as a model for all early childhood educators. ( See below for a discussion of play on a spectrum.)

This excerpt also illustrates the ways in which play and learning mutually support one another and how teachers connect learning goals to children’s play. Whether solitary, dramatic, parallel, social, cooperative, onlooker, object, fantasy, physical, constructive, or games with rules, play, in all of its forms, is a teaching practice that optimally facilitates young children’s development and learning. By maximizing children’s choice, promoting wonder and enthusiasm for learning, and leveraging joy, playful learning pedagogies support development across domains and content areas and increase learning relative to more didactic methods (Alfieri et al. 2011; Bonawitz et al. 2011; Sim & Xu 2015).

Playful Learning: A Powerful Teaching Tool

This narrowing of the curriculum and high-stakes assessment practices (such as paper-and-pencil tests for kindergartners) increased stress on educators, children, and families but failed to deliver on the promise of narrowing—let alone closing—the gap.  All  children need well-thought-out curricula, including reading and STEM experiences and an emphasis on executive function skills such as attention, impulse control, and memory (Duncan et al. 2007). But to promote happy, successful, lifelong learners, children must be immersed in developmentally appropriate practice and rich curricular learning that is culturally relevant (NAEYC 2020). Playful learning is a vehicle for achieving this. Schools must also address the inequitable access to play afforded to children (see “Both/And: Early Childhood Education Needs Both Play and Equity,” by Ijumaa Jordan.) All children should be afforded opportunities to play, regardless of their racial group, socioeconomic class, and disability if they have been diagnosed with one. We second the call of Maria Souto-Manning (2017): “Although play has traditionally been positioned as a privilege, it must be (re)positioned as a right, as outlined by the  United Nations Convention on the Rights of the Child, Article 31” (785).

What Is Playful Learning?

Playful learning describes a learning context in which children learn content while playing freely (free play or self-directed play), with teacher guidance (guided play), or in a structured game. By harnessing children’s natural curiosity and their proclivities to experiment, explore, problem solve, and stay engaged in meaningful activities—especially when doing so with others—teachers maximize learning while individualizing learning goals. Central to this concept is the idea that teachers act more as the Socratic “guide at the side” than a “sage on the stage” (e.g., King 1993, 30; Smith 1993, 35). Rather than view children as empty vessels receiving information, teachers see children as active explorers and discoverers who bring their prior knowledge into the learning experience and construct an understanding of, for example, words such as  forecast  and  low pressure  as they explore weather patterns and the science behind them. In other words, teachers support children as active learners.

Importantly, playful learning pedagogies naturally align with the characteristics that research in the science of learning suggests help humans learn. Playful learning leverages the power of active (minds-on), engaging (not distracting), meaningful, socially interactive, and iterative thinking and learning (Zosh et al. 2018) in powerful ways that lead to increased learning.

Free play lets children explore and express themselves—to be the captains of their own ship. While free play is important, if a teacher has a learning goal, guided play and games are the road to successful outcomes for children (see Weisberg, Hirsh-Pasek, & Golinkoff 2013 for a review). Playful learning in the form of guided play, in which the teacher builds in the learning as part of a fun context such as a weather report, keeps the child’s agency but adds an intentional component to the play that helps children learn more from the experience. In fact, when researchers compared children’s skill development during free play in comparison to guided play, they found that children learned more vocabulary (Toub et al. 2018) and spatial skills (Fisher et al. 2013) in guided play than in free play.

Self-Directed Play, Free Play

NAEYC’s 2020 position statement on developmentally appropriate practice uses the term  self-directed play  to refer to play that is initiated and directed by children. Such play is termed  free play  in the larger works of the authors of this excerpt; therefore, free play is the primary term used in this article, with occasional references to self-directed play, the term used in the rest of the DAP book.

Imagine an everyday block corner. The children are immersed in play with each other—some trying to build high towers and others creating a tunnel for the small toy cars on the nearby shelves. But what if there were a few model pictures on the wall of what children could strive to make as they collaborated in that block corner? Might they rotate certain pieces purposely? Might they communicate with one another that the rectangle needs to go on top of the square? Again, a simple insertion of a design that children can try to copy turns a play situation into one ripe with spatial learning. Play is a particularly effective way to engage children with specific content learning when there is a learning goal.

Why Playful Learning Is Critical

Teachers play a crucial role in creating places and spaces where they can introduce playful learning to help all children master not only content but also the skills they will need for future success. The science of learning literature (e.g., Fisher et al. 2013; Weisberg, Hirsh-Pasek, & Golinkoff 2013; Zosh et al. 2018) suggests that playful learning can change the “old equation” for learning, which posited that direct, teacher-led instruction, such as lectures and worksheets, was the way to achieve rich content learning. This “new equation” moves beyond a sole focus on content and instead views playful learning as a way to support a breadth of skills while embracing developmentally appropriate practice guidelines (see Hirsh-Pasek et al. 2020).

Using a playful learning pedagogical approach leverages the skill sets of today’s educators and enhances their ability to help children attain curricular goals. It engages what has been termed active learning that is also developmentally appropriate and offers a more equitable way of engaging children by increasing access to participation. When topics are important and culturally relevant to children, they can better identify with the subject and the learning becomes more seamless.

While educators of younger children are already well versed in creating playful and joyful experiences to support social goals (e.g., taking turns and resolving conflicts), they can use this same skill set to support more content-focused curricular goals (e.g., mathematics and literacy). Similarly, while teachers of older children have plenty of experience determining concrete content-based learning goals (e.g., attaining Common Core Standards), they can build upon this set of skills and use playful learning as a pedagogy to meet those goals.

Learning Through Play: A Play Spectrum

As noted previously, play can be thought of as lying on a spectrum that includes free play (or self-directed play), guided play, games, playful instruction, and direct instruction (Bergen 1988; Zosh et al. 2018). For the purposes of this piece, we use a spectrum that includes the first three of these aspects of playful learning, as illustrated in “Play Spectrum Showing Three Types of Playful Learning Situations” below.

The following variables determine the degree to which an activity can be considered playful learning:

• level of adult involvement
• extent to which the child is directing the learning
• presence of a learning goal

Toward the left end of the spectrum are activities with more child agency, less adult involvement, and loosely defined or no particular learning goals. Further to the right, adults are more involved, but children still direct the activity or interaction.

Developmentally appropriate practice does not mean primarily that children play without a planned learning environment or learn mostly through direct instruction (NAEYC 2020). Educators in high-quality early childhood programs offer a range of learning experiences that fall all along this spectrum. By thinking of play as a spectrum, educators can more easily assess where their learning activities and lessons fall on this spectrum by considering the components and intentions of the lesson. Using their professional knowledge of how children develop and learn, their knowledge of individual children, and their understanding of social and cultural contexts, educators can then begin to think strategically about how to target playful learning (especially guided play and games) to leverage how children naturally learn. This more nuanced view of play and playful learning can be used to both meet age-appropriate learning objectives and support engaged, meaningful learning.   

In the kindergarten classroom in the following vignette, children have ample time for play and exploration in centers, where they decide what to play with and what they want to create. These play centers are the focus of the room and the main tool for developing social and emotional as well as academic skills; they reflect and support what the children are learning through whole-group discussions, lessons, and skills-focused stations. In the vignette, the teacher embeds guided play opportunities within the children’s free play.

Studying Bears: Self-Directed Play that Extends What Kindergartners Are Learning

While studying the habits of animals in winter, the class is taking a deeper dive into the lives of American black bears, animals that make their homes in their region. In the block center, one small group of children uses short lengths and cross-sections of real tree branches as blocks along with construction paper to create a forest habitat for black bear figurines. They enlist their friends in the art center to assist in making trees and bushes. Two children are in the writing center. Hearing that their friends are looking for help to create a habitat, they look around and decide a hole punch and blue paper are the perfect tools for making blueberries—a snack black bears love to eat! Now multiple centers and groups of children are involved in making the block center become a black bear habitat.

In the dramatic play center, some of the children pretend to be bear biologists, using stethoscopes, scales, and magnifying glasses to study the health of a couple of plush black bears. When these checkups are complete, the teacher suggests the children could describe the bears’ health in a written “report,” thus embedding guided play within their free play. A few children at the easels in the art center are painting pictures of black bears.

Contributed by Amy Blessing

Free play, or self-directed play, is often heralded as the gold standard of play. It encourages children’s initiative, independence, and problem solving and has been linked to benefits in social and emotional development (e.g., Singer & Singer 1990; Pagani et al. 2010; Romano et al. 2010; Gray 2013) and language and literacy (e.g., Neuman & Roskos 1992). Through play, children explore and make sense of their world, develop imaginative and symbolic thinking, and develop physical competence. The kindergarten children in the example above were developing their fine motor and collaboration skills, displaying their understanding of science concepts (such as the needs of animals and living things), and exercising their literacy and writing skills. Such benefits are precisely why free play has an important role in developmentally appropriate practice. To maximize learning, teachers also provide guided play experiences.

Guided Play

While free play has great value for children, empirical evidence suggests that it is not always sufficient  when there is a pedagogical goal at stake  (Smith & Pellegrini 2008; Alfieri et al. 2011; Fisher et al. 2013; Lillard 2013; Weisberg, Hirsh-Pasek, & Golinkoff 2013; Toub et al. 2018). This is where guided play comes in.

Guided play allows teachers to focus children’s play around specific learning goals (e.g., standards-based goals), which can be applied to a variety of topics, from learning place value in math to identifying rhyming words in literacy activities. Note, however, that the teacher does not take over the play activity or even direct it. Instead, she asks probing questions that guide the next level of child-directed exploration. This is a perfect example of how a teacher can initiate a context for learning while still leaving the child in charge. In the previous kindergarten vignette, the teacher guided the children in developing their literacy skills as she embedded writing activities within the free play at the centers.

Facilitating Guided Play

Skilled teachers set up environments and facilitate development and learning throughout the early childhood years, such as in the following:

• Ms. Taglieri notices what 4-month-old Anthony looks at and shows interest in. Following his interest and attention, she plays Peekaboo, adjusting her actions (where she places the blanket and peeks out at him) to maintain engagement.
• Ms. Eberhard notices that 22-month-old Abe knows the color yellow. She prepares her environment based on this observation, placing a few yellow objects along with a few red ones on a small table. Abe immediately goes to the table, picking up each yellow item and verbally labeling them (“Lellow!”).
• Mr. Gorga creates intrigue and participation by inviting his preschool class to “be shape detectives” and to “discover the secret of shapes.” As the children explore the shapes, Mr. Gorga offers questions and prompts to guide children to answer the question “What makes them the same kind of shapes?”

An analogy for facilitating guided play is bumper bowling. If bumpers are in place, most children are more likely than not to knock down some pins when they throw the ball down the lane. That is different than teaching children exactly how to throw it (although some children, such as those who have disabilities or who become frustrated if they feel a challenge is too great, may require that level of support or instruction). Guided play is not a one-size-fits-all prescriptive pedagogical technique. Instead, teachers match the level of support they give in guided play to the children in front of them.

Critically, many teachers already implement these kinds of playful activities. When the children are excited by the birds they have seen outside of their window for the past couple of days, the teachers may capitalize on this interest and provide children with materials for a set of playful activities about bird names, diets, habitats, and songs. Asking children to use their hands to mimic an elephant’s trunk when learning vocabulary can promote learning through playful instruction that involves movement. Similarly, embedding vocabulary in stories that are culturally relevant promotes language and early literacy development (García-Alvarado, Arreguín, & Ruiz-Escalante 2020). For example, a teacher who has several children in his class with Mexican heritage decides to read aloud  Too Many Tamales  (by Gary Soto, illus. Ed Martinez) and have the children reenact scenes from it, learning about different literary themes and concepts through play. The children learn more vocabulary, have a better comprehension of the text, and see themselves and their experiences reflected. The teacher also adds some of the ingredients and props for making tamales into the sociodramatic play center (Salinas-González, Arreguín-Anderson, & Alanís 2018) and invites families to share stories about family  tamaladas  (tamale-making parties).

Evidence Supporting Guided Play as a Powerful Pedagogical Tool

Evidence from the science of learning suggests that discovery-based guided play actually results in increased learning for all children relative to both free play and direct instruction (see Alferi et al. 2011). These effects hold across content areas including spatial learning (Fisher et al. 2013), literacy (Han et al. 2010; Nicolopoulou et al. 2015; Hassinger-Das et al. 2016; Cavanaugh et al. 2017; Toub et al. 2018; Moedt & Holmes 2020), and mathematics (Zosh et al. 2016).

There are several possible reasons for guided play’s effectiveness. First, it harnesses the joy that is critical to creativity and learning (e.g., Isen, Daubman, & Nowicki 1987; Resnick 2007). Second, during guided play, the adults help “set the stage for thought and action” by essentially limiting the number of possible outcomes for the children so that the learning goal is discoverable, but children still direct the activity (Weisberg et al. 2014, 276). Teachers work to provide high-quality materials, eliminate distractions, and prepare the space, but then, critically, they let the child play the active role of construction. Third, in guided play, the teacher points the way toward a positive outcome and hence lessens the ambiguity (the degrees of freedom) without directing children to an answer or limiting children to a single discovery (e.g., Bonawitz et al. 2011). And finally, guided play provides the opportunity for new information to be integrated with existing knowledge and updated as children explore.

Reinforcing Numeracy with a Game

The children in Mr. Cohen’s preschool class are at varying levels of understanding in early numeracy skills (e.g., cardinality, one-to-one correspondence, order irrelevance). He knows that his children need some practice with these skills but wants to make the experience joyful while also building these foundational skills. One day, he brings out a new game for them to play—The Great Race. Carla and Michael look up expectantly, and their faces light up when they realize they will be playing a game instead of completing a worksheet. The two quickly pull out the box, setting up the board and choosing their game pieces. Michael begins by flicking the spinner with his finger, landing on 2. “Nice!” Carla exclaims, as Michael moves his game piece, counting “One, two.” Carla takes a turn next, spinning a 1 and promptly counting “one” as she moves her piece one space ahead. “My turn!” Michael says, eager to win the race. As he spins a 2, he pauses. “One . . . two,” he says, hesitating, as he moves his piece to space 4 on the board. Carla corrects him, “I think you mean ‘three, four,’ right? You have to count up from where you are on the board.” Michael nods, remembering the rules Mr. Cohen taught him earlier that day. “Right,” he says, “three, four.”

Similar to guided play, games can be designed in ways that help support learning goals (Hassinger-Das et al. 2017). In this case, instead of adults playing the role of curating the activity, the games themselves provide this type of external scaffolding. The example with Michael and Carla shows how children can learn through games, which is supported by research. In one well-known study, playing a board game (i.e., The Great Race) in which children navigated through a linear, numerical-based game board (i.e., the game board had equally spaced game spaces that go from left to right) resulted in increased numerical development as compared to playing the same game where the numbers were replaced by colors (Siegler & Ramani 2008) or with numbers organized in a circular fashion (Siegler & Ramani 2009). Structuring experiences so that the learning goal is intertwined naturally with children’s play supports their learning. A critical point with both guided play and games is that children are provided with support but still lead their own learning.

Digital educational games have become enormously popular, with tens of thousands of apps marketed as “educational,” although there is no independent review of these apps. Apps and digital games may have educational value when they inspire active, engaged, meaningful, and socially interactive experiences (Hirsh-Pasek et al. 2015), but recent research suggests that many of the most downloaded educational apps do not actually align with these characteristics that lead to learning (Meyer et al. 2021). Teachers should exercise caution and evaluate any activity—digital or not—to see how well it harnesses the power of playful learning.

Next Steps for Educators

Educators are uniquely positioned to prepare today’s children for achievement today and success tomorrow. Further, the evidence is mounting that playful pedagogies appear to be an accessible, powerful tool that harnesses the pillars of learning. This approach can be used across ages and is effective in learning across domains.

By leveraging children’s own interests and mindfully creating activities that let children play their way to new understanding and skills, educators can start using this powerful approach today. By harnessing the children’s interests at different ages and engaging them in playful learning activities, educators can help children learn while having fun. And, importantly, educators will have more fun too when they see children happy and engaged.

As the tide begins to change in individual classrooms, educators need to acknowledge that vast inequalities (e.g., socioeconomic achievement gaps) continue to exist (Kearney & Levine 2016). The larger challenge remains in propelling a cultural shift so that administrators, families, and policymakers understand the way in which educators can support the success of all children through high-quality, playful learning experiences.

Consider the following reflection questions as you reflect how to support equitable playful learning experiences for each and every child:

• One of the best places to start is by thinking about your teaching strengths. Perhaps you are great at sparking joy and engagement. Or maybe you are able to frequently leverage children’s home lives in your lessons. How can you expand practices you already use as an educator or are learning about in your courses to incorporate the playful learning described in this article?
• How can you share the information in this chapter with families, administrators, and other educators? How can you help them understand how play can engage children in deep, joyful learning?

This piece is excerpted from NAEYC’s recently published book  Developmentally Appropriate Practice in Early Childhood Programs Serving Children from Birth Through Age 8,  Fourth Edition. For more information about the book, visit  NAEYC.org/resources/pubs/books/dap-fourth-edition .

Teaching Play Skills

Pamela Brillante

While many young children with autism spectrum disorder enjoy playing, they can have difficulty engaging in traditional play activities. They may engage in activities that do not look like ordinary play, including playing with only a few specific toys or playing in a specific, repetitive way.

Even though most children learn play skills naturally, sometimes families and teachers have to teach children how to play. Learning how to play will help develop many other skills young children need for the future, including

• social skills:  taking turns, sharing, and working cooperatively
• cognitive skills:  problem-solving skills, early academic skills
• communication skills:  responding to others, asking questions
• physical skills:  body awareness, fine and gross motor coordination

Several evidence-based therapeutic approaches to teaching young children with autism focus on teaching play skills, including

• The Play Project:  https://playproject.org
• The Greenspan Floortime approach: https://stanleygreenspan.com
• Integrated Play Group (IPG) Model: www.wolfberg.com

While many children with autism have professionals and therapists working with them, teachers and families should work collaboratively and provide multiple opportunities for children to practice new skills and engage in play at their own level. For example, focus on simple activities that promote engagement between the adult and the child as well as the child and their peers without disabilities, including playing with things such as bubbles, cause-and-effect toys, and interactive books. You can also use the child’s preferred toy in the play, like having the Spider-Man figure be the one popping the bubbles.

Pamela Brillante , EdD, has spent 30 years working as a special education teacher, administrator, consultant, and professor. In addition to her full-time faculty position in the Department of Special Education, Professional Counseling and Disability Studies at William Paterson University of New Jersey, Dr. Brillante continues to consult with school districts and present to teachers and families on the topic of high-quality, inclusive early childhood practices.  

Photographs: © Getty Images Copyright © 2022 by the National Association for the Education of Young Children. See Permissions and Reprints online at  NAEYC.org/resources/permissions .

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Jennifer M. Zosh, PhD, is professor of human development and family studies at Penn State Brandywine. Most recently, her work has focused on technology and its impact on children as well as playful learning as a powerful pedagogy. She publishes journal articles, book chapters, blogs, and white papers and focuses on the dissemination of developmental research.

Caroline Gaudreau, PhD, is a research professional at the TMW Center for Early Learning + Public Health at the University of Chicago. She received her PhD from the University of Delaware, where she studied how children learn to ask questions and interact with screen media. She is passionate about disseminating research and interventions to families across the country.

Roberta Michnick Golinkoff, PhD, conducts research on language development, the benefits of play, spatial learning, and the effects of media on children. A member of the National Academy of Education, she is a cofounder of Playful Learning Landscapes, Learning Science Exchange, and the Ultimate Playbook for Reimagining Education. Her last book, Becoming Brilliant: What Science Tells Us About Raising Successful Children (American Psychological Association, 2016), reached the New York Times bestseller list.

Kathy Hirsh-Pasek, PhD, is the Lefkowitz Faculty Fellow in the Psychology and Neuroscience department at Temple University in Philadelphia, Pennsylvania.  She is also a senior fellow at the Brookings Institution. Her research examines the development of early language and literacy, the role of play in learning, and learning and technology. [email protected]

Vol. 77, No. 2

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Number and algebra

• The Number System and Place Value
• Calculations and Numerical Methods
• Fractions, Decimals, Percentages, Ratio and Proportion
• Properties of Numbers
• Patterns, Sequences and Structure
• Algebraic expressions, equations and formulae
• Coordinates, Functions and Graphs

Geometry and measure

• Angles, Polygons, and Geometrical Proof
• 3D Geometry, Shape and Space
• Measuring and calculating with units
• Transformations and constructions
• Pythagoras and Trigonometry
• Vectors and Matrices

Probability and statistics

• Handling, Processing and Representing Data
• Probability

Working mathematically

• Thinking mathematically
• Mathematical mindsets
• Cross-curricular contexts
• Physical and digital manipulatives

For younger learners

• Early Years Foundation Stage

Advanced mathematics

• Decision Mathematics and Combinatorics
• Advanced Probability and Statistics

Published 2016 Revised 2019

Mathematical Problem Solving in the Early Years: Developing Opportunities, Strategies and Confidence

• familiar contexts
• meaningful purposes
• mathematical complexity.

• which they understand - in familiar contexts,
• where the outcomes matter to them - even if imaginary,
• where they have control of the process,
• involving mathematics with which they are confident.
• taking some from one doll and giving to another, in several moves,
• starting again and dealing, either in ones or twos,
• taking two from each original doll and giving to the new doll,
• collecting the biscuits and crumbling them into a heap, then sharing out handfuls of crumbs.

• brute force: trying to hammer bits so that they fit,
• local correction: adjusting one part, often creating a different problem,
• dismantling: starting all over again,
• holistic review: considering multiple relations or simultaneous adjustments e.g. repairing by insertion and reversal.
• getting a feel for the problem, looking at it holistically, checking they have understood e.g. talking it through or asking questions;
• planning, preparing and predicting outcomes e.g. gathering blocks together before building;
• monitoring progress towards the goal e.g. checking that the bears will fit the houses;
• being systematic, trying possibilities methodically without repetition, rather than at random, e.g. separating shapes tried from those not tried in a puzzle;
• trying alternative approaches and evaluating strategies e.g. trying different positions for shapes;
• refining and improving solutions e.g. solving a puzzle again in fewer moves (Gifford, 2005: 153).
• Getting to grips:     What are we trying to do?    
• Connecting to previous experience:  Have we done anything like this before?
• Planning:      What do we need?
• Considering alternative methods:   Is there another way?
• Monitoring progress:    How does it look so far?
• Evaluating solutions:    Does it work?  How can we check?  Could we make it even better?

• Construction - finding shapes which fit together or balance
• Pattern-making - creating a rule to create a repeating pattern
• Shape pictures - selecting shapes with properties to represent something
• Puzzles - finding ways of fitting shapes to fit a puzzle
• Role-play areas - working out how much to pay in a shop
• Measuring tools - finding out how different kinds of scales work
• Nesting, posting, ordering - especially if they are not obvious
• Robots - e.g. beebots: directing and making routes
• preparing, getting the right number e.g. scissors, paper for creative activities
• sharing equal amounts e.g. at snack time
• tidying up, checking nothing is lost
• gardening and cooking  e.g. working out how many bulbs to plant where, measuring amounts in a recipe using scales or jugs
• games, developing rules, variations and scoring
• PE: organising in groups, timing and recording

• Decision making - what shall we call the new guinea pig?
• Parties, picnics and trips e.g. how much lemonade shall we make?
• Design Projects - the role play area, new outdoor gardens or circuits
• Hiding games - feely bags with shapes, the 'Box' game
• Story problems - e.g. unfair sharing, with remainders and fractions, making things to fit giants or fairies

• Spanish – español

Approaches to Learning: Problem Solving

Birth to 9 months

7 months to 18 months, 16 months to 24 months, 21 months to 36 months.

Children attempt a variety of strategies to accomplish tasks, overcome obstacles, and find solutions to tasks, questions, and challenges.

Children build the foundation for problem-solving skills through nurturing relationships, active exploration, and social interactions. In infancy, children learn that their actions and behaviors have an effect on others. For example, children cry to signal hunger to their caregivers; in turn, their caregivers feed them. Caregivers’ consistent responses to children’s communication attempts teach children the earliest forms of problem solving. Children learn that they have the ability to solve a problem by completing certain actions. Children build this knowledge and translate it into how they interact and problem-solve in future situations.

Children discover that their actions and behaviors also have an impact on objects. They learn that certain actions produce certain results. For example, children may bang a toy over and over as they notice the sound that it makes. This behavior is intentional and purposeful; children learn that they have the ability to make something happen. As they get older, children will experiment with different ways to solve problems, such as moving puzzle pieces in different ways to place them correctly. They will use trial and error to find solutions to the tasks they are working on, and use communication skills to ask or gesture for help from caregivers.

By 36 months, children are able to decrease the amount of trial and error they use when solving problems. Their cognitive skills are maturing and they are able to use logic and reasoning when working through challenges. Increased attention allows children to focus for longer periods of time when working through challenges. Children still depend on their caregivers for help, but are likely to attempt problem solving on their own before asking someone for help.

Children are building the foundation for problem solving through active exploration and social interaction.

Indicators for children include:

• Focuses on getting a caregiver’s attention through the use of sounds, cries, gestures, and facial expressions
• Enjoys repeating actions, e.g., continues to drop toy from highchair after it is picked up by a caregiver or sibling
• Communicates the need for assistance through verbal and/or nonverbal cues, e.g., pointing, reaching, vocalizing

Strategies for interaction

• Respond thoughtfully and promptly to the child’s attempts for attention
• Provide interesting and age-appropriate toys and objects for exploration
• Engage and interact with the child frequently during the day

Children begin to discover that certain actions and behaviors can be solutions to challenges and obstacles they encounter. Children also recognize how to engage their caregiver(s) to assist in managing these challenges.

• Repeats actions over and over again to figure out how an object works
• Begins to recognize that certain actions will draw out certain responses, e.g., laughing and smiling will often result in an adult responding in the same manner
• Attempts a variety of physical strategies to reach simple goals, e.g., pulls the string of a toy train to move it closer or crawls to get a ball that has rolled away
• Demonstrate how to try things in different ways and encourage the child to do the same, e.g., using a plastic bucket as a drum
• Gently guide the child in discovering and exploring, while allowing him or her enough independence to try new things
• Respond thoughtfully and promptly to the child’s communication attempts

Children have an enhanced capacity to solve challenges they encounter through the use of objects and imitation. Children may take on a more autonomous role during this stage, yet, reach out to caregiver(s) in most instances.

• Imitates a caregiver’s behavior to accomplish a task, e.g., attempts to turn a doorknob
• Increases ability to recognize and solve problems through active exploration, play, and trial and error, e.g., tries inserting a shape at different angles to make it fit in a sorter
• Uses objects in the environment to solve problems, e.g., uses a pail to move numerous books to the other side of the room
• Uses communication to solve problems, e.g., runs out of glue during an art project and gestures to a caregiver for more
• Validate and praise the child’s attempts to find solutions to challenges
• Narrate while assisting the child in figuring out a solution, e.g., “Let’s try to turn the puzzle piece this way”
• Provide the child with opportunities to solve problems with and without your help; minimize the possibility for the child to become frustrated
• Respond to the child’s communication efforts

Children begin to discriminate which solutions work, with fewer trials. Children increasingly become more autonomous and will attempt to first overcome obstacles on their own or with limited support from caregiver(s).

• Asks for help from a caregiver when needed
• Begins to solve problems with less trial and error
• Refuses assistance, e.g., calls for help but then pushes a hand away
• Shows pride when accomplishing a task
• Uses increasingly refined skills while solving problems, e.g., uses own napkin to clean up a spill without asking an adult for help
• Follow the child’s lead and pay attention to his or her cues when assisting in a task
• Share in the child’s joy and accomplishments
• Model and narrate problem-solving skills through play
• Provide the child with blocks of uninterrupted time to work on activities
• Be available for the child and recognize when he or she needs guidance

Real World Story

Sebastian, who is 25 months old, is engaged in a fine-motor activity provided by his caregiver. He is holding large, plastic tweezers and is attempting to use them to pick up big, fuzzy balls off a plastic plate and move them into a plastic cup. He is holding the plastic tweezers in one hand, and holds the plate steady on the table. He repeatedly tries to use one hand, but cannot pinch the tweezers tightly enough to pick up one of the balls. Sebastian pauses, looks around, and picks up the balls with his thumb and forefinger.

Holding the plastic tweezers in one hand and the ball in the other, Sebastian places the ball in the tweezers and then pinches it closed. He moves it over to the plastic cup and drops it inside. He then grabs another fuzzy ball and places it in the tweezers. Again, he pinches it tightly and transfers it to the cup. Sebastian engages in the same method until all the fuzzy balls on his plate are now inside his cup. Once he is done, he empties out the cup onto the plate and starts all over. After successfully completing the process again, he holds out his full cup toward his caregiver, Maria. She sees him, smiles, and gives two thumbs up. Sebastian grabs his cup and walks over to her. He hands Maria the cup and walks away from the table.

Discover how this Real World Story is related to:

• Self-Regulation: Foundation of Development Attention Regulation
• Developmental Domain 1: Social & Emotional Development Self-Concept
• Developmental Domain 2: Physical Development & Health Fine Motor
• Developmental Domain 2: Physical Development & Health Perceptual
• Developmental Domain 4: Cognitive Development Logic & Reasoning

THIS EXAMPLE HIGHLIGHTS how children use physical trial and error to solve problems. Sebastian is not successful in his initial attempts to pick up the small objects with his tweezers. However, he pauses to think about possible ways to work on this problem, and then changes his process. Instead of pinching the tweezers to grab the ball, he places the ball in between the tweezers and then pinches it closed. This is easier for him, as he is still developing the fine motor skills necessary to be able to complete this task. Once he realizes he is successful in accomplishing his goal, he engages in this task until he has finished placing every ball on his plate into the cup. He then repeats the activity all over again. Sebastian’s ability to successfully problem solve builds his self-confidence. Maria’s positive acknowledgment of his accomplishment further supports his social and emotional development. A positive self-concept and increasing self-confidence is very important for Sebastian’s future learning and overall healthy development.

Discover how Problem Solving is related to:

• Self-Regulation: Foundation of Development Emotional Regulation
• Developmental Domain 1: Social & Emotional Development Relationship with Adults
• Developmental Domain 4: Cognitive Development Memory

Related Resources

10 Ways to Strengthen Your Preschooler’s Problem-Solving Skills

As an adult, you make many decisions throughout your day without even thinking twice about some– from setting up the coffee machine at home to avoiding the long line at the drive-thru that can make you late to work to having a difficult but necessary conversation with your partner about finances. These are just a few examples of problem-solving skills and how you adapt to the situations around you and use your skills to exist on personal, professional, and social levels. 

While some problem-solving skills are innate, your ability to access a situation and take a course of action is based on the fact that when you were a child, the adults around you taught you problem-solving skills. Our Raleigh early-childhood development center is sharing our best advice for anyone looking to strengthen their pre-schoolers problem-solving skills. 

What is Problem Solving in Early Childhood?

Problem-solving refers to the ability to find a solution to a problem. For preschool-aged children, this can be difficult to learn if not modeled for them through the appropriate ways to react to the issues they face. 

For instance, if two children are playing with a toy and one pushes the other in an effort to take the toy, this is clearly an inappropriate way to react to the problem. Furthermore, screaming or yelling for the child to give them the toy is also not a proper way to solve the issue. To model mature and proper problem-solving skills, adults around the child should be practicing the concept of sharing, patience, and communication while avoiding physical and emotional reactions when they don’t get what they want.

When the child learns that they can ask the other child, “Can I play with the toy next?” or understand the concept that another child was playing with the toy first, they are exhibiting the ability to problem solve. 

Why is it Important to Develop Problem Solving Skills in Early Childhood?

Children aged 3 to 5 are developmentally experiencing growth in the following areas: 

• Cognitive 
• Emotional 
• Language 
• Sensory 
• Motor 

Because this time for preschoolers is so substantial to their intellectual, emotional, and social development, the world around them can seem overwhelming, unfair, intimidating, and even confusing. By modeling and teaching problem-solving skills to preschoolers , they can learn how to react logically, think creatively, communicate their needs, and assess how best to react to a situation at hand. 

How Can You Teach Problem Solving Skills to Your Children?

It is the responsibility of the adults who raise and teach children to provide kids with opportunities to strengthen their problem-solving skills in early childhood. If you are a parent, guardian, childcare provider, or early-childhood educator, it’s important to consider the best strategies for helping little ones adapt to the world around them and learn problem-solving skills. And remember, it can be frustrating when things do not work out as expected for anyone at any age, particularly for preschool-aged children who are just learning to adapt to their surroundings. 

When teaching your preschool-aged child how to problem solve, consider these four steps that are used in early-childhood classrooms : 

• Identify the problem
• Brainstorm solutions to the problem
• Choose and implement one of the solutions
• Evaluate how that solution resolved the problem

Following this four-step guideline can help the adults in a preschooler’s life address how a child acquires problem-solving techniques to help them navigate through the difficult and everyday situations that arise. 

When teaching problem-solving, focus on developing these key skills that relate to problem-solving: 

• Lateral thinking
• Decision-making
• Communication
• Persistence
• Negotiation
• Logical thinking
• Analytical thinking

10 Problem-Solving Activities for Preschoolers

You know that you want to guide your child through developing and strengthening strategies for problem-solving, but where do you begin? Our early-childhood development school is sharing some of our favorite ways to incorporate problem-solving activities into your life so that you can teach your child to grow on a personal and social level. 

#1 – Use Everyday Moments

You do not need a textbook or outline of how to teach your preschooler problem-solving. Simply using everyday moments to demonstrate problem-solving techniques is more useful than any “how to” book or homework assignment can teach your child. 

Going to the grocery store, driving in the car, making dinner at home, and cleaning the house are all everyday opportunities to present your child with decisions related to problem-solving. Having your child put ingredients away in the pantry while you cook, asking your child what aisle at the supermarket they think you can find a particular item, or seeing that there is a mess of toys and supplies and directing the child to initiate where they should be placed prior to starting a new activity are ways to integrate problem-solving into everyday moments. 

#2 – Look to the Child for the Solution

As your child grows up, they will not always have you by their side to solve each and every problem that arises. From issues with friends, future relationships, and future careers, the child you raise will one day become an independent adult who needs to problem-solve on their own. 

Asking children to weigh in for solutions to problems as they arise is one way to get them thinking critically early on in life. When a child is taught to not only assess an obstacle but to trust their own decision-making abilities to resolve a problem, they will be better equipped for success as they get older. 

#3 – Solve Mathematical Problems

Mathematics is a great way to engage children at an early age in problem-solving and solution-making activities. Math is logical and non-emotional, having very clear set rules and boundaries with a single solution is one prime example of problem-solving. When children are given age-appropriate mathematical problems and math word problems, they are given opportunities to troubleshoot and follow an order of operation that leads to a solution.

#4 – Ask Open-Ended Questions

As adults, we often find that the most convenient way to get through the day when caring for a preschooler is to complete tasks for them so that we can get on with our busy day. However, it’s important to pause and present your child with the opportunity to find their own solutions to problems they are faced with by using open-ended questions. 

For instance, your child cannot find their favorite pair of shoes. Rather than tear the house apart on your own looking for them, present the child with a question: “Where did you last wear those shoes?” or “When did you last see your shoes?” This requires your child to consider where they last may have placed them. Additionally, a question like, “If we can’t find those shoes right now, you’ll need to choose a different pair to wear so we aren’t late.” guides them toward finding an alternative solution to the problem. 

Giving children the opportunity to find their own solutions to issues that arise by asking open-ended questions equips them with problem-solving skills they will need throughout life when things do not always go as planned. 

#5 – Puzzles and Board Games

Puzzles and board games, much like math equations, allow children to use their cognitive problem-solving abilities to complete tasks in a fun and unique way. Pre-schoolers are often drawn to images and visual learning components as well as interactive play. Putting puzzles together allows for pattern recognition, while board games allow for interactive problem-solving techniques to be utilized through a set of rules. Incorporating puzzles and games into the lives of children are excellent ways to get them to think critically and find solutions that offer immediate results. 

#6 – Read Books and Tell Stories

Books and storytelling are always exceptional ways to build vocabulary and introduce kids to characters and situations outside of their own. When children are given the opportunity to relate to characters and situations, and then address how those characters can react and engage in their conflicts and interpersonal relationships, it not only fosters imagination and creativity but also problem-solving skills. 

#7 – Center Emotions

As adults we understand that while reacting emotionally to a situation is sometimes natural, it does not get us very far when it comes to solving a problem. Children should be taught how to center those emotions, without shame or guilt by providing an alternative to emotional responses. This is often in the form of learning communication and language. 

If your son’s best friend hurt his feelings, he should not be made to feel that he shouldn’t feel how he is feeling. Having your feelings hurt, particularly by a friend, is, well, hurtful, and there should be no shame attached to that feeling. However, when it comes to addressing those hurt feelings to the friend, it would be inappropriate to shout, “I hate you!” or “I don’t want to be your friend anymore!” Rather, providing your preschool-aged child with words and phrases for when their feelings are hurt is essential to emotional and social development. 

Teaching your son to tell his friend, “It hurts my feelings when you say that” or “I get sad when you are mean to me” are great ways to help children not only process their emotional feelings but express them in appropriate ways that lead to a resolution. 

#8 – Model Problem-Solving Behaviors

Children look to the adults in their lives for how to handle the problems they face in the world. If your child sees you politely ask a waiter to return a plate of food that was incorrectly served, they will learn that proper communication, respect, and patience lead to resolution. In contrast, if a child sees their parents speak rudely and blame a waiter for an incorrect order, they will learn that emotional reactions are the way to address problems. As a parent and caretaker, it is your responsibility to use mistakes, obstacles, and hardships as learning opportunities passed on to your preschool-aged children, demonstrating first-hand that non-emotional responses, kindness, and communication are the keys to getting most issues resolved. 

#9 – Break Down Problems into Chunks

As an adult, one of the ways to get through major projects at work is to set up a schedule that breaks down a large-scale project into smaller portions. Using this technique in childhood education and development is a successful way to teach children how doing one small task can lead to an overall greater, larger picture in the long run. Since a large task can seem overwhelming or even impossible, breaking it down into smaller, easily achievable pieces that will eventually lead to the full, complete picture is a wonderful way to help children of any age, but particularly preschool-aged, tackle large issues without feeling the weight of the big picture.

#10 – Utilize Natural Curiosities and Interests 

Using natural, organic opportunities for learning and problem-solving is always one of the best ways to foster creativity as well as logical and analytical thinking. All children are naturally drawn to some interest– whether it’s unicorns, dinosaurs, airplanes, trucks, or the color blue… every child has something that they become naturally drawn to, often to the surprise of their parents. 

For example, maybe every time your daughter sees the mailman drop off the mail, she is fascinated. Maybe her face lit up with interest and excitement to check what was left in the mailbox today. This is an opportunity to ask questions that lead to analytical thinking and problem-solving. Inquiring, “what does the mail carrier drop off at other houses?” or teaching the concept of writing a letter to grandma and how it goes through the mail can continue to foster interests while teaching logical steps, planning, and problem-solving techniques. 

Enroll Your Child in an Interactive Preschool Care System 

It’s no secret that when a child is at preschool age they are naturally curious and soak up all the information around them. By teaching your child problem-solving skills, they are better equipped to handle the everyday struggles the world has to face. However, the professionals at our preschool development center understand that busy working schedules, multiple children, and life’s responsibilities do not always make it easy for parents to dedicate time to fostering and strengthening problem-solving skills in their children. 

If you have a preschool-aged child who will benefit from emotional, social, and personal development related to problem-solving, contact Primary Beginnings to enroll your child in our 5-star preschool program in Raleigh. 

Contact us today at 919-790-6888 for our Spring Forest Rd. location or 919-785-0303 for our North Hills Dr. location, or fill out our contact form below. 

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Problem Solving Activities for Preschoolers

Colleen beck otr/l.

• by Colleen Beck OTR/L
• October 22, 2021

It can be frustrating when children act without thinking of the consequences. In this blog post, you’ll learn about the development of problem solving in specific parts of our brain, discover important aspects of executive functioning that impact problem solving abilities, how to teach problem solving to preschoolers, and problem solving activities for preschoolers and young children so they can use words instead of the preschooler’s behaviors  or tantrums.

Best of all, many of our favorite fine motor activities for preschoolers support problem solving skills in early childhood.

Problem Solving Activities for Preschoolers

Before we get into the problem solving activities for preschoolers, and specific strategies to use in early childhood, it’s important to understand the development of the problem-solving process in kids. Supporting small children by giving them the skills to be problem solvers takes time and practice. We’ll get to those specific strategies below.

But first, does this scenario sound familiar at all…

I just don’t understand why Johnny keeps throwing the ball in the house. Doesn’t he realized that he could break the window? Johnny is three and he loves to play with his tennis ball in the house. Even though I have told him over and over again that we don’t throw them in the house, I still catch him sneaking them indoors at least once a week. 

Before we can address problem solving by helping kids look at the big picture and coming up with creative solutions for problem solving issues, we need to understand what is happening developmentally. Self-reflection is a challenging cognitive skill, and for young learners! 

Let’s take a better look at the development of problem solving skills…

Development of Problem Solving Skills

It’s through play, observation of others, and practice that young learners are developing problem solving skills in early childhood .

Problem solving, rational thinking and reasoning are all skills that are controlled by a part of our brain called the prefrontal cortex. Our brains grow exponentially over the first five years of life, but not the part of our brain that helps us with critical thinking and problem solving skills. This part of our brain, called the prefrontal cortex, isn’t fully developed until we turn 25 years old! 

As babies, we are exposed every day to new experiences, but at this age we don’t comprehend how these experiences affect us and those around us. If only children could think through their problems. This resource on executive functioning skills offers more information.

Have you noticed that it can be a bit scary when teenagers get their drivers licenses? They don’t always think of “what might happen.” This is due to their prefrontal cortex not being fully developed. 

But what about our three and four year olds? We know they can count, ask questions and get the cookie off the counter in a very sneaky way when we aren’t looking. In the Early Years study of 2011 called Making decisions, Taking action , they describe the prefrontal cortex entering a rapid period of development, making critical interconnections with our limbic system. (link: )

This study states “The prefrontal cortex pathways that underlie these capacities are unique to human brains and take a long time to mature. Early connections begin in infancy. Between age 3 and 5 years, the prefrontal cortex circuits enter a rapid period of development and make critical interconnections with the limbic system. During adolescence and early adulthood, the neural pathways are refined and become more efficient.”

What is so great about this part of the brain anyway? 

As the prefrontal cortex (that is located behind out eyes) develops over the years, we are able to engage with situations differently, assessing our surroundings in a new way. As we develop these new executive functioning skills, we are able to keep ourselves safe, build friendships and become successful in our careers.

Related, these friendship activities for preschoolers offers ideas and strategies to support social emotional development.

This peer reviewed report competed by Merve Cikili Utyun, called Development Period of Prefrontal Cortex, discusses how amazing this part of our brain is, and how each of the three sections control different aspects of our functioning. It states that: 

“ PFC includes the following Broadman Areas (BA): 8, 9, 10, 11, 12, 44, 45, 46, 47. “The dorsolateral frontal cortex (BA) 9/46 has been functioned in many cognitive process, including processing spatial information, monitoring and manipulation of working memory, the implementation of strategies to facilitate memory, response selection, the organization of material before encoding, and the verification and evaluation of representations that have been retrieved from long-term memory. 

The mid-ventrolateral frontal cortex (BA 47) has implicated cognitive functions, including the selection, comparison, and judgment of stimuli held in short-term and long-term memory, processing non-spatial information, task switching, reversal learning, stimulus selection, the specification of retrieval cues, and the ‘elaboration encoding’ of information into episodic memory.

BA 10, the most anterior aspect of the PFC, is a region of association cortex known to be involved in higher cognitive functions, such as planning future actions and decision-making. BAs 44 and 45, include part of the inferior frontal and these regions’ functions are language production, linguistic motor control, sequencing, planning, syntax, and phonological processing.

Finally, the orbitofrontal cortex mostly (BA 47, 10, 11, 13) in the orbitofrontal cortex has been implicated in processes that involve the motivational or emotional value of incoming information, including the representation of primary (unlearned) reinforcers such as taste, smell, and touch, the representation of learnt relationships between arbitrary neutral stimuli and rewards or punishments, and the integration of this information to guide response selection, suppression, and decision making.” 

Wow! No wonder it takes so long for this part of our brain to fully develop. Problem solving skills in preschoolers take time to develop!

When Johnny is throwing the ball inside the house, he is thinking about what is happening now, in the present. Not what has happened in the past (when he broke the window at grandmas house a year ago) or that breaking a window might happen in the future. 

What are some problem solving techniques?

Solving problems is a skill that all preschoolers need support with. This critical skill doesn’t happen overnight. It takes time and practice to become second nature.

It’s hard for us, as adults, to remember that children ages 3-5 (preschool-aged) don’t yet have the brain capacity to problem solve on their own, or remember what they learned from a situation a week ago. 

Just like when Andrew was painting at the easel and his paintbrush got stuck in the container. Instead of asking for help or trying to “unstick” the brush, he screamed.  Or when Sally and Samantha ran outside to grab the red bouncy ball, Samantha screamed when Sally grabs it first. She didn’t see the other red bouncy ball in the bucket next to the bikes. 

Try some of these problem solving activities for  kids :

Observation- Children need problem solving strategies that they can observe, and then practice in their everyday lives. Let kids see you talk through problems as you “figure out” a solution. This gives children a chance to see a problem-solving approach in real life situations. They get to see problem solving scenarios in action.

Repetition- Repetition supports brain growth in every area of development including problem solving, executive functioning, motor development, language skills and social development.

Multisensory Activities- Children learn best with multi-sensory cues, learning new skills through seeing, touching, hearing and experiencing the skills they are learning. In 2013, the US National Library of Medicine published an article titled  Neuropsychiatr Dis Treat.  stating “The prefrontal cortex acquires information from all of the senses and orchestrates thoughts and actions in order to achieve specific goals.” (link: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3621648/)

Creative Activities- Solving problems is a skill that all preschoolers need support with. It’s hard for us, as adults, to remember they don’t yet have the brain capacity to problem solve on their own. The best way to teach children how to problem solve, it to create activities that support these new skills in a positive way, that their developing brain understands. This letter to future self is one activity to work on goal achievement even at a young age. Preschoolers can draw a picture of what they would like to do or be as an older child or as a teenager or adult.

Problem Solving Activities for Preschool

Here are 3 Simple Ways to Teach Preschoolers to Solve Problems

1.Teaching executive functioning and problem solving skills in everyday situations will support the growth of a child’s prefrontal cortex. For example, these activities that teach executive functioning at the beach show how much thought and preparation goes into building a simple sand castles.

• Children have to think about how much sand to use, how to keep it standing, how to prevent sand from getting into their eyes and how to create another one if the one they are building falls down.
• They must create, plan ahead, problem solve when things get tough and communicate to adults and peers for help.

What other activities does your child do on a regular basis that requires all areas of the prefrontal cortex to activate?

2.When children become upset, their emotions become so overwhelming that they can’t think. In order to calm down and problem solve, they need to access a multi sensory way to help them remember how to do that.

Soothing Sammy gives children tactile and visual cues that remind them how to calm down and problem solve in a developmentally appropriate way. They can be reminded of this positive reinforcement with two words “Sammy Time!”

By reading the book about the sweet golden retriever, who understands that everyone feels upset sometimes, children are encouraged to use all of the sensory strategies to calm down. They can talk to Sammy about what is happening and think through their problem to create a solution.

Ashlie’s four year old daughter did just this. She reports: “When Molly was having some big emotions about coloring a picture and needed to calm down, she visited Sammy and returned with a solution to the problem she came up with all on her own (well with Sammy’s help).”

Click here for more information on the Soothing Sammy resources .

3.Problem solving requires us to remember what just happened, what is happening now and what do we want to happen next. A preschoolers brain tends to blend all three of these situations together, not able to communicate any of them until prompted by an adult. And as an adult, we are left “guessing” what our children are thinking about. Visual cues are a wonderful sensory communication tool to support both children and adults in the realm of solving problems.

Using tools like “First/Then” cards to support routine and common situations like transitions and completing tasks. Using visuals clearly communicates what needs to be done, especially if using pictures of real children doing these tasks.

A Final note about problem solving skills in preschool

Solving problems are hard for young children, even teenagers, as their prefrontal cortex isn’t fully developed yet. Using multisensory teaching tools to support brain development, practicing tasks that teach executive functioning skills and using developmentally appropriate tools to help children calm down, will help even the most frustrating moments become a bit less stressful for children and adults. 

As we learn to be more patient with children, understanding that the part of their brain needed to solve problems is just beginning to develop, repeating the same directions over and over again may not be so frustrating. Our children are doing the best they can. It’s up to us to provide them with experiences to help their brains grow and develop. 

Jeana Kinne is a veteran preschool teacher and director. She has over 20 years of experience in the Early Childhood Education field. Her Bachelors Degree is in Child Development and her Masters Degree is in Early Childhood Education. She has spent over 10 years as a coach, working with Parents and Preschool Teachers, and another 10 years working with infants and toddlers with special needs. She is also the author of the “Sammy the Golden Dog” series, teaching children important skills through play.

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The Impact of Social Interaction on Childhood Growth

Cognitive development benefits.

S ocial interaction plays a crucial role in the cognitive development of children. When children interact with their peers and adults, they are exposed to diverse experiences, perspectives, and ideas. This exposure enhances their thinking skills, problem-solving abilities, and intellectual development. Here are some cognitive development benefits that result from social interaction:

• Enhanced language skills: Through social interaction, children have the opportunity to develop and improve their language skills. They learn new vocabulary, practice their communication skills, and gain a better understanding of language structure.
• Improved critical thinking: Engaging in conversations with others helps children develop their critical thinking abilities. They learn to analyze information, consider different viewpoints, and make informed decisions.
• Expanded knowledge: Interacting with others exposes children to a wide range of knowledge and perspectives. They learn about different cultures, traditions, and ideas, which broadens their understanding of the world.
• Enhanced problem-solving skills: Social interaction provides children with opportunities to solve problems collaboratively. Through group discussions and cooperative play, they learn how to negotiate, compromise, and find creative solutions.
• Improved memory: Engaging in social activities stimulates children's memory and cognitive processes. They remember details of conversations, experiences, and interactions, which contributes to their overall cognitive development.

Social interaction and learning

Social interaction is closely linked to the learning process in children. Through social interactions, children learn from others, acquire new skills, and develop a deeper understanding of various subjects. Here are some key points highlighting the connection between social interaction and learning:

Active engagement: Social interaction encourages children to actively engage in the learning process. When they interact with others, they become more involved and interested in the subject matter, leading to improved learning outcomes.

Peer learning: Interacting with peers allows children to learn from each other. They can share their knowledge, explore different perspectives, and collaborate on projects, which enhances their understanding and retention of information.

Problem-solving: Social interaction fosters problem-solving skills in children. By discussing and working together with others, they learn new strategies, gain different insights, and develop effective problem-solving techniques.

Feedback and support: Social interaction provides children with valuable feedback and support. When they interact with teachers, classmates, or mentors, they receive guidance, constructive criticism, and encouragement, which positively impacts their learning and development.

Improved motivation: Social interaction can boost children's motivation to learn. When they engage in collaborative activities or group projects, they feel a sense of belonging and responsibility, driving them to put more effort into the learning process.

Social skills in children

Social interaction is essential for the development of social skills in children. Through interactions with others, they learn how to communicate, cooperate, empathize, and navigate social situations. Here are some key social skills that children develop through social interaction:

Communication: Social interaction helps children learn how to express themselves effectively. They practice verbal and non-verbal communication, learn listening skills, and acquire the ability to convey their thoughts and feelings to others.

Empathy: Interacting with others cultivates empathy in children. They learn to understand and share the feelings of others, develop compassion, and become more considerate and supportive individuals.

Cooperation: Social interaction teaches children the importance of cooperation and teamwork. By engaging in group activities and collaborative projects, they learn how to work together, contribute ideas, compromise, and achieve common goals.

Conflict resolution: Social interaction provides children with opportunities to learn conflict resolution skills. They practice negotiation, compromise, and problem-solving techniques, which are essential for resolving conflicts and maintaining healthy relationships.

Self-regulation: Through social interactions, children learn self-regulation skills. They learn to manage their emotions, control their impulses, and adapt their behavior to different social situations, setting the foundation for positive relationships and personal growth.

Social interaction benefits

Social interaction offers numerous benefits to children's overall development and well-being. Here are some key advantages of social interaction in childhood:

Positive self-esteem: Engaging in social interactions helps boost children's self-esteem and self-confidence. When they interact with others, receive social validation, and form meaningful connections, they develop a positive self-perception and a sense of belonging.

Better mental health: Social interaction contributes to better mental health in children. It provides opportunities for social support, reduces feelings of isolation, and promotes overall emotional well-being.

Increased social awareness: Interacting with a diverse range of individuals helps children develop social awareness and cultural competency. They learn to respect and appreciate differences, develop tolerance, and become more inclusive members of society.

Improved social relationships: Social interaction enables children to form and maintain meaningful relationships. They learn to establish connections, make friends, and develop strong interpersonal skills that are crucial for their personal and professional lives.

Positive behavior and character development: Engaging in social interactions promotes positive behavior and character development in children. Through interactions with others, they learn values such as empathy, respect, honesty, and cooperation, which shape their moral compass.

Enhanced resilience: Social interaction helps children develop resilience and coping skills. They learn to navigate various social situations, face challenges, and adapt to different environments, which builds their capacity to cope with adversity.

In conclusion, social interaction plays a vital role in the cognitive, social, and emotional development of children. By providing numerous benefits such as improved cognitive abilities, enhanced learning outcomes, and the development of important social skills, social interaction lays the foundation for a child's lifelong growth and success. Encouraging and facilitating meaningful social interactions in childhood is essential for nurturing well-rounded individuals who can thrive in the interconnected world of tomorrow.

The post The Impact of Social Interaction on Childhood Growth appeared first on Things That Make People Go Aww .

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Teens and Video Games Today

85% of u.s. teens say they play video games, and about four-in-ten do so daily. teens see both positive and negative sides of video games – from problem-solving and making friends to harassment and sleep loss, table of contents.

• Who plays video games?
• How often do teens play video games?
• What devices do teens play video games on?
• Social media use among gamers
• Teen views on how much they play video games and efforts to cut back
• Are teens social with others through video games?
• Do teens think video games positively or negatively impact their lives?
• Why do teens play video games?
• Bullying and violence in video games
• Appendix A: Detailed charts
• Acknowledgments
• Methodology

Pew Research Center conducted this analysis to better understand teens’ use of and experiences with video games.

The Center conducted an online survey of 1,453 U.S. teens from Sept. 26 to Oct. 23, 2023, through Ipsos. Ipsos recruited the teens via their parents, who were part of its KnowledgePanel . The KnowledgePanel is a probability-based web panel recruited primarily through national, random sampling of residential addresses. The survey was weighted to be representative of U.S. teens ages 13 to 17 who live with their parents by age, gender, race and ethnicity, household income, and other categories.

This research was reviewed and approved by an external institutional review board (IRB), Advarra, an independent committee of experts specializing in helping to protect the rights of research participants.

Here are the questions used for this analysis , along with responses, and  its methodology .

There are long-standing debates about the impact of video games on youth. Some credit them for helping young people form friendships and teaching them about teamwork and problem-solving . Others say video games expose teenagers to violent content, negatively impact their sleep and can even lead to addiction.

With this in mind, Pew Research Center surveyed 1,423 U.S. teens ages 13 to 17 about their own video game habits – from how often they play to the friends they’ve made and whether it gets in the way of them doing well in school or getting a good night’s sleep. 1

Key findings from the survey

• Video games as a part of daily teen life: 85% of U.S. teens report playing video games, and 41% say they play them at least once a day. Four-in-ten identify as a gamer.
• Gaming as a social experience: 72% of teens who play video games say that a reason why they play them is to spend time with others. And some have even made a friend online from playing them – 47% of teen video game players say they’ve done this.
• Helpful with problem-solving, less so for sleep: Over half of teens who play video games say it has helped their problem-solving skills, but 41% also say it has hurt their sleep.
• Bullying is a problem: 80% of all teens think harassment over video games is a problem for people their age. And 41% of those who play them say they’ve been called an offensive name when playing.
• Boys’ and girls’ experiences differ: Most teen boys and girls play video games, but larger shares of boys identify as gamers (62% vs. 17%) and play every day (61% vs. 22%). Boys who play them are also more likely to experience positive things from it, like making friends, and more troubling things like harassment.

Jump to read about: Who plays video games | Socializing over video games | Views about video games’ impact | Harassment and violence in video games      

Playing video games is widespread among teens. The vast majority of U.S. teens (85%) say they play them. Just 15% say they never do, according to the survey conducted Sept. 26-Oct. 23, 2023.

In addition to asking whether teens play video games, we also wanted to learn whether they consider themselves gamers. Overall, four-in-ten U.S. teens think of themselves as gamers. Just under half of teens (45%) play video games but do not think of themselves as gamers.

Nearly all boys (97%) say they play video games, compared with about three-quarters of teen girls. There is a substantial gap by gender in whether teens identify as gamers: 62% of teen boys do, compared with 17% of girls. 2

By gender and age

Younger teen girls are more likely than older girls to say they play video games: 81% of girls ages 13 to 14 compared with 67% of those ages 15 to 17. But among boys, nearly all play video games regardless of age. 

Similar shares of teens play video games across different racial and ethnic groups and among those who live in households with different annual incomes. Go to Appendix A for more detail on which teens play video games and which teens identify as gamers.

We also asked teens how often they play video games. About four-in-ten U.S. teens say they play video games daily, including 23% who do so several times a day.

Another 22% say they play several times a week, while 21% play them about once a week or less.

Teen boys are far more likely than girls to say they play video games daily (61% vs. 22%). They are also much more likely to say they play them several times a day (36% vs. 11%).

By whether someone identifies as a gamer

About seven-in-ten teens who identify as gamers (71%) say they play video games daily. This drops to 30% among those who play them but aren’t gamers.

By household income

Roughly half of teens living in households with an annual income of less than $30,000 (53%) say they play video games at least daily. This is higher than those in households with an annual income of $30,000 to $74,999 (42%) and $75,000 or more (39%).

Go to Appendix A to see more details about who plays video games and identifies as a gamer by gender, age, race and ethnicity, and household income.

Most teens play video games on a gaming console or a smartphone. When asked about five devices, most teens report playing video games on a gaming console (73%), such as PlayStation, Switch or Xbox. And 70% do so on a smartphone. Fewer – though still sizable shares – play them on each of the following:

• 49% say they play them on a desktop or laptop computer
• 33% do so on a tablet  
• 24% play them on a virtual reality (VR) headset such as Oculus, Meta Quest or PlayStation VR

Many teens play video games on multiple devices. About a quarter of teens (27%) do so on at least four of the five devices asked about, and about half (49%) play on two or three of them. Just 8% play video games on one device.

Teen boys are more likely than girls to play video games on four of the five devices asked about – all expect tablets. For instance, roughly nine-in-ten teen boys say they ever play video games on a gaming console, compared with 57% of girls. Equal shares of teen boys and girls play them on tablets.  

Teens who consider themselves gamers are more likely than those who play video games but aren’t gamers to play on a gaming console (95% vs. 78%), desktop or laptop computer (72% vs. 45%) or a virtual reality (VR) headset (39% vs. 19%). Similar shares of both groups play them on smartphones and tablets.

One way that teens engage with others about video games is through online platforms. And our survey findings show that teen gamers stand out for their use of two online platforms that are known for their gaming communities – Discord and Twitch :

• 44% of teen gamers say they use Discord, far higher than video game players who don’t identify as gamers or those who use the platform but do not play video games at all. About three-in-ten teens overall (28%) use Discord.
• 30% of teens gamers say they use Twitch. About one-in-ten other teens or fewer say the same; 17% of teens overall use the platform.

Previous Center research shows that U.S. teens use online platforms at high rates .

Teens largely say they spend the right amount of time playing video games. When asked about how much time they spend playing them, the largest share of teens (58%) say they spend the right amount of time. Far fewer feel they spend too much (14%) or too little (13%) time playing them.

Teen boys are more likely than girls to say they spend too much time playing video games (22% vs. 6%).

By race and ethnicity

Black (17%) and Hispanic (18%) teens are about twice as likely than White teens (8%) to say they spend too little time playing video games. 3

A quarter of teens who consider themselves gamers say they spend too much time playing video games, compared with 9% of those who play video games but don’t identify as gamers. Teen gamers are also less likely to think they spend too little time playing them (19% vs. 10%).

Fewer than half of teens have reduced how much they play video games. About four-in-ten (38%) say they have ever chosen to cut back on the amount of time they spend playing them. A majority (61%) report that they have not cut back at all.

This share is on par with findings about whether teenagers have cut back with their screen time – on social media or their smartphone.

Although boys are more likely to say they play video games too much, boys and girls are on par for whether they have ever cut back. About four-in-ten teen boys (39%) and girls (38%) say that they have ever cut back.

And gamers are as likely to say they have cut back as those who play video games but don’t identify as gamers (39% and 41%).

A main goal of our survey was to ask teens about their own experiences playing video games. For this section of the report, we focus on teens who say they play video games.

Socializing with others is a key part of the video game experience. Most teens who play video games do so with others, and some have developed friendships through them.

About nine-in-ten teen video game players (89%) say they play them with other people, in person or online. Far fewer (11%) play them only on their own.

Additionally, about half (47%) report that they have ever made a friend online because of a video game they both play. This equals 40% of all U.S. teens who have made a friend online because of a video game.

These experiences vary by:  

• Gender: Most teen boy and girl video game players play them with others, though it’s more common among boys (94% vs. 82%). Boys who play video games are much more likely to say they have made a friend online because of a video game (56% vs. 35%).
• Race and ethnicity: Black (55%) and Hispanic (53%) teen video game players are more likely than White teen video game players (43%) to say they have made a friend online because of them.
• Whether someone identifies as a gamer: Nearly all teen gamers report playing video games with others (98%). Fewer – though still most – of those who play video games but aren’t gamers (81%) also play them with others. And about seven-in-ten (68%) say they have made a friend online because of a video game, compared with 29% of those who play them but don’t identify as gamers.

Teens who play video games are particularly likely to say video games help their problem-solving skills. More than half of teens who play video games (56%) say this.

Additionally, more think that video games help, rather than hurt, three other parts of their lives that the survey asked about. Among teens who play video games:

• Roughly half (47%) say it has helped their friendships
• 41% say it has helped how they work with others
• 32% say it has helped their mental health

No more than 7% say playing video games has hurt any of these.

More teens who play video games say it hurts, rather than helps, their sleep. Among these teens, 41% say it has hurt how much sleep they get, while just 5% say it helps. And small shares say playing video games has impacted how well they do in school in either a positive or a negative way.

Still, many teens who play video games think playing them doesn’t have much an impact in any of these areas. For instance, at least six-in-ten teens who play video games say it has neither a positive nor a negative impact on their mental health (60%) or their school performance (72%). Fewer (41%) say this of their problem-solving skills.

Teen boys who play video games are more likely than girls to think playing them has helped their problem-solving skills, friendships and ability to work with others. For instance, 55% of teen boys who play video games say this has helped their friendships, compared with 35% of teen girls.

As for ways that it may hurt their lives, boys who play them are more likely than girls to say that it has hurt the amount of sleep they get (45% vs. 37%) and how well they do in school (21% vs. 11%). 

Teens who consider themselves gamers are more likely than those who aren’t gamers but play video games to say video games have helped their friendships (60% vs. 35%), ability to work with others (52% vs. 32%), problem-solving skills (66% vs. 47%) and mental health (41% vs. 24%).

Gamers, though, are somewhat more likely to say playing them hurt their sleep (48% vs. 36%) and how well they do in school (20% vs. 14%).

By whether teens play too much, too little or the right amount

Teens who report playing video games too much stand out for thinking video games have hurt their sleep and school performance. Two-thirds of these teens say it has hurt the amount of sleep they get, and 39% say it hurt their schoolwork. Far fewer of those who say they play the right amount (38%) or too little (32%) say it has hurt their sleep, or say it hurt their schoolwork (12% and 16%).

Teens who play video games say they largely do so to be entertained. And many also play them to be social with and interact with others. Teens who play video games were asked about four reasons why they play video games. Among those who play video games:

• Nearly all say fun or entertainment is a major or minor reason why they play video games – with a large majority (87%) saying it’s a major reason.
• Roughly three-quarters say spending time with others is a reason, and two-thirds say this of competing with others. Roughly three-in-ten say each is a major reason.
• Fewer – 50% – see learning something as a reason, with just 13% saying it’s a major reason.

While entertainment is by far the most common reason given by teens who play video games, differences emerge across groups in why they play video games.

Teens who identify as gamers are particularly likely to say each is major reason, especially when it comes to competing against others. About four-in-ten gamers (43%) say this is a major reason, compared with 13% of those who play video games but aren’t gamers.

Teen boys who play video games are more likely than girls to say competing (36% vs. 15%), spending time with others (36% vs. 27%) and entertainment (90% vs. 83%) are major reasons they play video games.

Black and Hispanic teens who play video games are more likely than White teens to say that learning new things and competing against others are major reasons they play them. For instance, 29% of Black teen video game players say learning something new is a major reason, higher than 17% of Hispanic teen video game players. Both are higher than the 7% of White teen video game players who say the same.

Teens who play video games and live in lower-income households are especially likely to say competing against others and learning new things are major reasons. For instance, four-in-ten teen video game players who live in households with an annual income of less than $30,000 say competing against others is a major reason they play. This is higher than among those in households with annual incomes of $30,000 to $74,999 (29%) and $75,000 or more (23%).

Cyberbullying can happen in many online environments, but many teens encounter this in the video game world.

Our survey finds that name-calling is a relatively common feature of video game life – especially for boys. Roughly four-in-ten teen video game players (43%) say they have been harassed or bullied while playing a video game in one of three ways: 

• 41% have been called an offensive name
• 12% have been physically threatened
• 8% have been sent unwanted sexually explicit things

Teen boys are particularly likely to say they have been called an offensive name. About half of teen boys who play video games (48%) say this has happened while playing them, compared with about a third of girls (32%). And they are somewhat more likely than girls to have been physically threatened (15% vs. 9%).

Teen gamers are more likely than those who play video games but aren’t gamers to say they been called and offensive name (53% vs. 30%), been physically threatened (17% vs. 8%) and sent unwanted sexually explicit things (10% vs. 6%).

Teens – regardless of whether they’ve had these experiences – think bullying is a problem in gaming. Eight-in-ten U.S. teens say that when it comes to video games, harassment and bullying is a problem for people their age. This includes 29% who say it is a major problem.

It’s common for teens to think harassment while playing video games is a problem, but girls are somewhat more likely than boys to say it’s a major problem (33% vs. 25%).

There have also been decades-long debates about how violent video games can influence youth behavior , if at all – such as by encouraging or desensitizing them to violence. We wanted to get a sense of how commonly violence shows up in the video games teens are playing.

Just over half of teens who play video games (56%) say at least some of the games they play contain violence. This includes 16% who say it’s in all or most of the games they play.

Teen boys who play video games are far more likely than girls to say that at least some of the games they play contain violence (69% vs. 37%).

About three-quarters of teen gamers (73%) say that at least some of the games they play contain violence, compared with 40% among video game players who aren’t gamers.   

• Throughout this report, “teens” refers to those ages 13 to 17. ↩
• Previous Center research of U.S. adults shows that men are more likely than women to identify as gamers – especially the youngest adults. ↩
• There were not enough Asian American respondents in the sample to be broken out into a separate analysis. As always, their responses are incorporated into the general population figures throughout the report. ↩

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Problem Solving in the Moment

Problem Solving in the Moment Highlight Video

Narrator: Welcome to this short module on problem solving in the moment. This video highlights the ways that teachers can support children in learning how to use problem solving to deal with the upsets and conflicts and other social problems that may occur in a preschool classroom.

For many young children, the preschool classroom is a new social experience. They will need to learn how to share space with other children, share toys with other children, and share the teacher's attention. It can be hard. Some problems are bound to occur. Let's find out how to help children learn to problem solve.

Problem solving in the moment can be an effective way to prevent challenging behaviors, and it teaches children useful social skills. Problem solving in the moment is one of a series of in-service suites about behavior guidance. These strategies and practices help teachers create classrooms that are filled with effective and engaging interactions and environments.

That's the foundation of the National Center on Quality Teaching and Learning's House Framework for Effective Practice. The other parts of the house are use of research-based curricula and teaching practices, ongoing child assessment, and highly individualized teaching and learning. There are five steps that help teachers guide children's behavior and encourage their problem solving in the moment: Anticipate. Be close. Provide support. Create multiple solutions, and celebrate success. Let's see what these look like.

The first step is to anticipate. As teachers observe their children, they will begin to notice the times and activities where problems are likely to happen. It might be when all the children need to transition to a new activity at one time or when children have to wait their turn. Teachers anticipate and get ready to problem solve.

The second step is to be close. The teacher regularly scans the room or playground. When the teacher has a hunch that something might lead to a problem, the teacher moves toward the action. Then the teacher uses a calm voice to figure out the situation.

Next, the teacher provides support. For the children, learning to solve problems in the moment can be difficult. The teacher needs to remind children how to use words. The teacher might have pictures or signs that remind children how to solve a problem. The teacher can cue the children by saying, "I see we have a problem. What should we do?" Or, "This is a new toy, and everyone wants to play with it at the same time. That's a problem. How can we solve it?"

[Video begins]

Teacher: Uh-oh. Say, "I have a problem."

Girl: I have a problem.

Teacher: Tell her, "I'm using those."

Girl: I'm using those.

Teacher: So, what can we do to solve our problem?

Girl: We'll use something...

Teacher: Claire has an idea. You can share the bin of blocks.

Girl: Here.

Teacher: That was a good idea.

[Video ends]

Narrator: The next step is to generate multiple solutions. There are all sorts of solutions to typical preschool problems. Children can pick a number or flip a coin or use a timer or make another choice. Some teachers create solution kits, solution lists, or solution books that contain ideas for children to try.

Teacher: Do you want to look for an idea in the basket? Grab the book. See what you can come up with. Playing together. So, you would build it together. Do you want to build together, Jamy? Look it. Amy's talking to you.

Narrator: The final step is to celebrate success. Make sure that you let the children know that you appreciate their hard work in figuring out a solution. And give yourself a pat on the back. Problem solving in the moment means that you've taught the children some really important social skills.

There are five steps, so remember to think five. Use these five steps to help children be better problem solvers. These steps will also help prevent little classroom conflicts from becoming much bigger problems. Remember that learning to solve problems takes time and practice. Practice problem solving during circle time or lesson time, so that children will be better problem solvers during the rest of the day.

Thank you for listening.

This module highlighted a behavior guidance strategy that we call problem solving in the moment. Learn more in our longer module. Refer to the Tips and Tools to use problem solving in your classroom.

Teachers can use the problem solving approach of this in-service suite with children in their classrooms. It helps children resolve social problems as they arise "in the moment."

Materials for Trainers

Presentation [PPT, 82MB]

Presenter Notes [PDF, 2MB]

Learning Activity: Problem Solve [PDF, 80KB]

Learning Activity: Anticipating Problem Situations [PDF, 73KB]

Learning Activity: Brainstorming Multiple Solutions [PDF, 483KB]

Learning Activity: Celebrating Success [PDF, 100KB]

Supplemental Videos [PPTX, 130MB]

Supporting Materials

Tips for Teachers [PDF, 104KB]

Tips for Teachers: Dual Language Learners [PDF, 634KB]

Tips for Families [PDF, 297KB]

Teacher Tools [PDF, 488KB]

Tools for Supervisors [PDF, 71KB]

Helpful Resources [PDF, 87KB]

This zip file contains presentation materials including training videos and handouts. To view or use these materials without internet access, download Problem Solving in the Moment 15-minute In-service Suite in advance. Please ensure your browser is updated to the newest version available. If you have difficulty downloading this file, try using a different browser.

For more information, please contact us at ecdtl at ecetta dot info or call (toll-free) 844-261-3752.

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Resource Type: Video

Last Updated: September 26, 2023

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Ashton Body '24: 2024 Prize Winner

“Deep in the sea lives a fish named Bluey…” the story began. Floating in a sea of light blue watercolor brushstrokes and outlined in coarse black penmarks, this iridescent blue fish came to life. Page by page in Bluey’s Big Worries, Bluey’s story unfolded within this colorful sea of watercolor. With pursed lips, curious eyes, and a worrisome, nagging shadow, Bluey navigated feelings of anxiety, doubt, and fear, learning new ways to work through his worries and a vocabulary to describe them. As a reader flips through, they too can place themselves within this story to explore their own big feelings, worries, and coping mechanisms in a world of color and possibility amidst a rising tide of mental health concerns.

Anxiety disorders are a serious and growing problem for children globally, commonly presented as intense feelings of worry and fear. Anxiety rates have almost doubled since the COVID-19 pandemic due to mass isolation, fear, uncertainty, and school closures all of which interrupted critical periods of development and socialization for children (Racine et al. 2021) and is a major public health concern as it interferes with daily functioning and developmental milestones and impacts families and communities (Ghandour et al. 2019). As a critical policy target, various interventions are currently being implemented to tackle this growing issue including increased access to appropriate treatments and care providers, improved mental health education and discourse, and the construction of scaffolded-support networks. Introducing mental health and anxiety into conversation with children in an informal and educational way has been suggested to improve mental health literacy and reduce stigma for both children and caretakers (Lowe, D. 2009; USDE 2021). Thus Bluey’s Big Worries was created to provide children with the space and vocabulary to identify with Bluey, understand and reflect on their own emotions and worries, and learn how to express what they are feeling.

Before this class, while I was witnessing the growing rates of childhood anxiety every week in the Cambridge Afterschool Program (CASP), I lacked the tools and knowledge to truly understand and analyze this problem. It was not until my sophomore year that I was given the space and opportunity to tackle children’s mental health as a final project for GenEd 1063 World health: Challenges and Opportunities with Professor Sue Goldie where I learned how to analyze, present, and intervene in an intentional and impactful way. Emerging first as a project idea based on my love of art and young people, coupled with my apprehension to write another long paper, this project transformed the way I see change-making. Rather than big problems necessitating paralyzingly big solutions, I learned that sometimes the simplest ideas–here found within CASP’s young people’s love for story-telling, crafts, and sea animals–can be special, fun, and impactful. In this way, policy and interventions can and must be rooted in community voice and need, knowing that although no one intervention can fix everything, change is made through this collaboration and shared imagination. The purpose of this final project was to create a specific, achievable deliverable for a global health problem, such as a public service announcement, microsite, policy brief, podcast, or more, to begin to tackle these big problems in a data-driven, intentional way. As the culmination of a semester of analyzing global health issues, metrics, and policy, this class dared us to dream big and be bold, and to not be limited by conventional policy briefs or other forms of change-making.

As such, each brush stroke, illustrative sequence, and storyboard is infused with meaning, purpose, and care – driven by an analytical understanding of the problem, my years of work in CASP, and a shared love for creation, color, and discussion. And now, with the support of Professor Sue Goldie and the Global Health Education and Learning Incubator (GHELI) team, Bluey has become so much more than a final project and is currently becoming part of a multi-book series with accompanying resource packs and curriculum designed for young people, families, and educators to bring mental health into everyday discussion. Today, Bluey is now a part of a dynamic ecosystem of friends with different struggles and journeys with anxiety, and these stories make up a core component of my theory of change. With the support of Professor Goldie and the GHELI team, what started as a creative final project meant to add some color and liveliness to my finals, has been completely transformed into a resource that combines my passions for art, young people, and mental health in an impactful way and has shown me the power of radical imagination and dreaming.

This course empowers students to tackle the most pressing global challenges rooted in a love of bright colors and the belief in creation with purpose. In this way and building on our own projects, another classmate and I were given the opportunity to partner together to create a workshop series for the next year’s students to support them in thinking creatively and dreaming boldly for their final projects. In these workshops, we created a space to brainstorm different policy and project ideas and to learn technical skills through rotations through story-boarding, sketching, podcasting, and multimedia stations. These workshops were meant to make project ideas for big problems feel accessible, tangible, and most importantly fun – and it is in these special spaces and with Professor Goldie’s support that I really see and deeply believe in the power of radical imagination. This class taught us that there are countless ways to address big problems; we just have to be brave enough to care and to try, rooted in a concrete understanding of the problem and potential solutions. And here I learned that bright colors, drawing outside of the lines, and just creating are the first steps to any problem-solving and challenge us to think in ways we never could have imagined before. I found that art and care for young people can coexist with and complement thoughtful approaches to medicine and public health to create tangible impacts, rather than being confined only to the standardized text of policy briefs. And it is from this class that I have learned so much more about why I want to go into medicine and more specifically pediatrics, rooted in creating toolkits, shared language, and a caring space for the young people I work with. This class has completely changed how I approach problem solving inspired by my newfound belief that big problems can have many small, impactful interventions, and we should not be afraid to collaborate, color outside of the lines, and think creatively.

Works Cited

Ghandour, Reem M., Laura J. Sherman, Catherine J. Vladutiu, Mir M. Ali, Sean E. Lynch, Rebecca H. Bitsko, and Stephen J. Blumberg. 2019. “Prevalence and Treatment of Depression, Anxiety, and Conduct Problems in US Children.” The Journal of Pediatrics 206 (March): 256-267.e3. https://doi.org/10.1016/j.jpeds.2018.09.021 .

Lowe, D. F. (2009). Helping Children Cope through Literature. Forum on Public Policy Online.  https://files.eric.ed.gov/fulltext/EJ864819.pdf

Racine, Nicole, Brae Anne McArthur, Jessica E. Cooke, Rachel Eirich, Jenney Zhu, and Sheri Madigan. 2021. “Global Prevalence of Depressive and Anxiety Symptoms in Children and Adolescents During COVID-19: A Meta-Analysis.” JAMA Pediatrics 175 (11): 1142–50. https://doi.org/10.1001/jamapediatrics.2021.2482 .

U.S. Department of Education. (USDE). Supporting Child and Student Social, Emotional, Behavioral, and Mental Health Needs. 2021. https://www2.ed.gov/documents/students/supporting-child-student-social-e... behavioral-mental-health.pdf