“LOOK!” Ellie summons us with such joy that there’s no doubt she has spotted something wonderful.

Our eyes follow the four-year-old as she dashes to a very large, very hollow tree. A tree that is still alive and thriving—with an opening over four feet tall just inviting a group of children and their teacher to peek inside.

“Who lives in there?” asks Clare as she summons up the courage to move closer.

Can we go inside the tree?” asks Veronica, although the question is a rhetorical one because the three-year-old has no intention of venturing inside.

“Is the tree hollow all the way up to the top?” Alex asks in wonder as he approaches the tree and glances upward to assess the tree’s height.

“I think a whole family of squirrels might live in there . . . or bats!” Harper’s pronouncement prompts her peers to quickly back away from the tree.

It’s so quiet and still as everyone contemplates the hollow tree that I’m not sure if the children are even breathing. All eyes are locked on Ellie, our resident risk-taker.

Emboldened by the children’s curiosity, Ellie inches her way closer to the tree’s interior. She is cautious but curious, brave yet apprehensive as she simultaneously challenges herself and calculates the risk at hand. 

Research tells us that children won’t take risks if they think they can’t succeed. But I know Ellie. She is an amazing observer and a visual learner who tends to rely on her senses when approaching an unfamiliar situation.

Today is no different. I watch as Ellie inspects the size, strength and thickness of the trunk. She inspects the ground outside of the tree cavity for animal droppings. She pokes her head into the hole and peers up, down, left and right before stepping inside. Ellie thrives on moments like these and trusts herself to evaluate the situation.

I trust Ellie as much as she trusts herself. These moments of risk-taking and assessment help a child develop cognitive, social-emotional, and self-regulatory skills—traits that make Ellie a natural leader.

Suddenly, Ellie pops back out of the hole in the tree, looks around and beams at the rest of us. “It’s so cool!” she exclaims. “You have to come in!”

One by one, slowly but surely, the children all make their way into this amazing gift from Mother Nature. Children grow in their ability to appraise risk by observing other children at play.

When children observe their friends taking risks and succeeding, they become more confident about taking risks themselves. This confidence carries over to the classroom and prepares them to try something new, possibly fail, and try again.

This hollow tree trunk has evoked wonder and curiosity in the entire gang, sparking a STEM investigation that helps lay the foundation for later math, science, and engineering concepts.

When we let children learn through play, movement, and trial and error, we lay the groundwork for the kind of deep learning that builds new neural connections. These are the moments that inspire our early learners to investigate the possibilities.

Today, nature has provided the ultimate learning tool and transformed a moment of outdoor play into an exploration of the concepts of spatial relationships and geometry. An understanding of spatial relationships helps children talk about where things are located. I hear them use words such as in, out, down, over, under and next to, vocabulary that helps lay the foundation for geometry. 

When children use words such as wide, heavy and light, they are using descriptors for measurement. We begin to get a better sense of measurement as we visually estimate the height of the tree, the height of the entrance hole, and the number of friends who might be able to fit inside the tree. 

When children are guessing, predicting and classifying their ideas, they are engaging in early algebra, the scientific method, and basic engineering design. This morning of play is strengthening their understanding of these concepts as they use the vocabulary words repeatedly throughout their investigation.

Hands-on learning enables children to take their understanding to a deeper level so that they can analyze the information that they have collected and then apply this knowledge when they create their own structures during block play, art projects and clay play.

These are opportunities that are rich in learning, creativity and friendship. Whether they are on the playground or in the classroom, children must take risks that enable them to develop new skills and explore their ideas in a safe and supportive environment.  

Look for opportunities that can build your student’s risk-taking skills. Like our exploration of the hollow tree, these learning adventures will not only build their confidence and self-esteem but lay the foundation for academic success!

Out of the corner of my eye, I notice three-year-old Saaliha, who is patiently working her way through a rainbow puzzle. Her friends are busy in other parts of the classroom, but Saaliha is problem-solving her way to puzzle mastery. I sit down next to her to observe her learning style, and she is so engrossed in her learning that my presence goes unnoticed.

Open-ended materials such as Saaliha’s rainbow puzzle often lead to long periods of deep concentration and learning. Today is no different.  Although this rainbow puzzle often lands in the block area in the shape of a snake, a tunnel or a flowing river, Saaliha is trying to assemble the pieces so that the puzzle will fit back into its round wooden tray for storage.

Puzzle play is a great time to build cognitive and fine-motor skills. In addition to finding the correct sequence of sizes, Saaliha must determine how each block must be placed to complete the puzzle. I watch as Saaliha flips, turns and rotates the pieces to figure out where they go and in what order.

I love observing Saaliha’s learning style and seeing how it corresponds to her developmental level. I see her set aside pieces that are not needed at the moment. Saaliha’s spatial awareness is growing with each try.

As Saaliha plays with the puzzle, I note how her choices and strategies change. She begins to recognize and understand how the pieces fit together to complete the puzzle. I watch her sorting and testing pieces of different sizes and moving them in different directions until each piece fits properly.

As she builds her spatial awareness, Saaliha is also strengthening the small muscles in her hands while improving her manual dexterity and building foundational problem-solving and critical-thinking skills. This is a learning adventure that requires the eyes, hands and brain to work together!

Saaliha is soon joined by her two-year-old buddy, Eleanor. These two best friends are 11 months apart in age—with different learning styles and different levels of brain development.

As they work together to fit the yellow arch into the puzzle, they discuss and test out different strategies. The collaboration continues as Eleanor tries to solve a problem her older friend could not.

Saaliha never reaches over to remove the piece from her younger friend’s hand. She is observing and reasoning as deeply as she had been moments earlier when the puzzle piece was in her own hand. Eleanor quickly loses interest, but Saaliha perseveres.

Saaliha tries new pieces and new directions. I can practically see the wheels turning in her brain. She is coming up with new ideas and testing out different theories.

She is not rushed or agitated, and she doesn’t ask for assistance. She simply keeps trying new patterns and new pieces. In short, she is riveted to this learning opportunity.

Suddenly it all clicks into place. Saaliha has an “Aha” moment, and I can see her confidence surge as she fits the pieces together more quickly. She has solved the puzzle!

There is no celebration, just a smile of satisfaction. She studies the finished project. Before I can capture her expression of satisfaction with my camera, she disassembles the puzzle to do it over again.

As Saaliha starts over, I continue to observe her strategies and methods. Her perseverance continues to reward her with stronger puzzle-solving skills.

What better way to build an early math foundation?

“Saaliha, come with me to the light table,” Evelyn whispers. “I have to show you something!”

Hand in hand, the two preschoolers quietly make their way over to our light table. This darkened corner of our classroom never fails to mesmerize the children with its soft glow and luminous colors.

As the days grow shorter and darker—and the hectic holiday season approaches—it’s the perfect time to engage children in calming investigative play with light and color.

Before we gather around the light table, I dim the lights in the classroom and put on some soft music to create a soothing and tranquil setting for the children, who are often overscheduled, tired and anxious during these busy December days.

“Look!” says Evelyn. “I took a play silk from our dress-up bin and put it on the light table!”

Evelyn moves over to make room for Saaliha at the light table and the two friends immerse themselves in STEAM collaboration, problem-solving and investigation. The girls are completely absorbed in their play—and the learning is enhanced by the presence of a friend and collaborator.

“That’s cool!” says Saaliha. “It makes everything look a little different, but you can still see all of the different colors!”  

The light table allows for open-ended play, where children can experiment and create without strict guidelines. This type of play fosters the development of creativity and problem-solving skills as the children follow their curiosity, devise their own experiments and draw their own conclusions. This child-led play also fosters an investigative mindset, which can lead to hours of exploration and discovery.

“Try this!” Evelyn suggests as she shows Saaliha how to duck under the silk to compare the views. 

The girls experiment with different color combinations and share their theories and discoveries. The light table always seems to spark curiosity and encourages children to ask questions and seek answers.

As more children join the investigative play, they expand their knowledge base by collecting data and adding probability to their investigative skills.

This is a shared space that encourages collaborative investigations. Collaboration fosters communication skills, teamwork and the ability to share ideas with peers.

Children work together to create patterns, build structures and explore different materials—a process that helps foster the development verbal and social skills.

The hands-on nature of these activities promotes a deeper understanding of mathematical principles through play.

Children can investigate fundamental mathematical concepts such as counting, sorting, patterns and shapes on the light table. 

These long play periods extend the learning as the group explores spatial relationships, patterns and sequencing, laying a foundation for more advanced mathematical thinking.

Play at the light table is naturally enjoyable for young children. The combination of vibrant colors, interactive materials and the freedom to explore creates a positive and joyful learning experience that can contribute to a lifelong love of learning. 

Light tables allow children to learn at their own pace, which makes the play developmentally appropriate for every early learner. The children build on their own knowledge and share their observations with others.

When children are making observations and discoveries, they are forming and testing hypotheses. These self-directed learning experiences empower them to continue to explore and investigate beyond the classroom.

So turn on that light table and watch the magic of play and discovery brighten the day! 

We also use songs to work on vocabulary, memory and repetition. This week, the children asked if they could sing the song “Head, Shoulders, Knees and Toes” over and over again.

It’s fun to watch children of different ages and abilities participate in this activity. The beauty of this song is that everybody loves it. Everyone feels successful and happy, regardless of their developmental level, their physical coordination or their ability to anticipate and execute the moves.

When children sing songs like “The Wheels on the Bus,” the music and movement stimulate so many areas of the brain that learning is enhanced by as much as 90 percent. Physical movement also enhances memory and recall.

When I see students singing and laughing their way through “Heads, Shoulders, Knees and Toes” or “Teddy Bear, Teddy Bear,” I know that they are developing physical skills such as balance, spatial awareness and hand-eye coordination, as well as social skills such as cooperation and taking turns.

Children also learn how to think, explore, work things through and develop their language and self-expression skills as they sing and dance or play an instrument.

Have you ever heard a child make up all of the words to a song as they sing it? That’s brain development in progress!

Using songs in your daily routines can help you meet the math standards for early childhood education. Keep it light, easy and age-appropriate! Sing loud, sing often and sing off-key! The children don’t care. That won’t be what they remember. They will remember the words to the song, which will lay a strong foundation for their future math learning.

We use songs to work on vocabulary, memory and repetition. This week, the children have begged to sing the song “Head, Shoulders, Knees and Toes” over and over again.

It’s fun to watch the different levels of coordination, anticipation and expectations as children of different ages and abilities participate in this activity. The beauty of this song is that everybody loves it. Everyone feels successful and happy, regardless of their developmental level.

When children sing songs like “The Wheels on the Bus,” the music and movement stimulate so many areas of the brain that learning is enhanced by as much as 90 percent! Physical actions and exercise also enhance memory and recall.

When I see students singing and laughing their way through “Heads, Shoulders, Knees and Toes” or “Teddy Bear, Teddy Bear,” I know that they are developing physical skills like balance, spatial awareness and hand-eye coordination.

Social skills like cooperation and taking turns, as well as the shared experience of learning how to dance and play with friends is simple and fun.

Children also learn how to think, explore, work things through and develop their language and self-expression skills as they sing and dance or play an instrument.

Have you ever heard a child make up all of the words to a song as they sing it? That’s brain development in progress!

Using songs in your daily routines can help you meet the math standards for early childhood education. Keep it light, easy and age-appropriate! Sing loud, sing often and sing off-key!

The children don’t care. That won’t be what they remember. They will remember the words to the song, which will lay a strong foundation for their future math learning.

“Go around the tree, through the tunnel, over the rocks, under the parachute and onto the swing. Then throw a beanbag through the hula hoop and run and touch the fence. The first person to do that WINS!”

I listen as five-year-old Juan walks his eager friend through the steps of the obstacle course he has just created.

When people think about early math skills, they often think about numbers—including number recognition and counting. But spatial reasoning is another important aspect of early math learning.

Juan has kicked off our morning of math learning with a burst of spatial vocabulary!

Words like around, through, over, under, above, below, between and beside describe where things or people are in space.

Obstacle courses are a great way for children to learn, hear and use spatial language while developing their spatial skills. Obstacle courses also teach sequencing, memory and following directions. Best of all, kids LOVE them!

When designing your own obstacle course, consider the elements that will make it both fun and challenging. Try out these options:

• Something to jump over or into such as rope, pool noodles, chalk lines or hoops. I often use chalk to draw shapes such as circles, squares, rectangles or triangles just to sneak some more math into our day. As children start to identify shapes, they are building the foundation for geometry.
• Something to climb over. When we’re indoors, we use pillows. When we’re outside, we climb over the picnic table or up the slide. The slide is a feature in many of our obstacle courses.
• Something to weave around and between. We often use cones or buckets, recycled two-liter plastic bottles filled with water or natural landmarks such as trees, bushes and gardens.
• Something to crawl through or under such as tunnels, parachutes or boxes.
• Something that requires a bit of balance or care when navigating such as a curved rope, river rocks or tree stumps.
• Something to run to, such as a fence, a tree or a door.

When older children are here after school, we often use a stopwatch to time how long it takes to complete the course. This exposes our children to data analysis and record keeping.

Some students may want to use their drawing skills to create a map of the obstacle course. Keep clipboards and pencils nearby because this activity catches on quickly!

You can add more math learning opportunities by counting the hoops or cones as children go through or around each one.

You can measure the distance between cones or stones—or simply use spatial language to describe the distance, using words such as closer together or farther apart.

Obstacle courses are also great for developing gross-motor skills. Include activities such as crawling, jumping, skipping and hopping. If your outdoor area has natural slopes and uneven terrain, these areas are perfect for fostering the development of early gross-motor skills.  

We all see the need for self-regulation in young children. Occupational therapists often use movement to support physical and mental regulation and increase a child’s attention span, focus and alertness. That’s reason enough to create a math curriculum that involves an obstacle course!

An obstacle course may look like play, but it’s chock full of learning opportunities. When we take the time to explain how activities like these can support early childhood learning and development, parents and administrators begin to develop a deeper understanding of our early childhood curriculum. 

Ready to take a deeper dive into spatial learning? Check out the Early Math Counts lesson plan Over, Under, Through. After you engage in the activity, click on the Connect With Families button on the left side of the page and customize the letter to send home to the families of the children in your classroom.

Be sure to let us know how your obstacle course turned out and share helpful tips in our Comments section. Have fun!

“Do you know about our Magic Tree?” four-year-old Rowan asks Alex. She pauses dramatically before passing on the secret of the beloved old tree that has long been a source of delight and inquiry for the children in our early learning program.

“Watch, Alex!” she instructs. “I will push this stick into the tree, way up here, and say ‘Hocus Pocus.’ Then I can pull the stick out of the tree way down here at the bottom!”

Alex is the perfect audience for Rowan’s magic trick. I watch as the rest of the gang joins in the fun to demonstrate the tree’s “magical” abilities, much to Alex’s amazement.

“See?  I put the stick in this circle hole. It’s a hollow tree! There isn’t any tree inside, it’s just a hole!” explains Rowan. “And then you can pull it out down here at the bottom of the tree!”

“The tree is hollow?” Alex repeats in wonder, moving closer to the tree to peer into the hole.

“Yep, it is!” exclaims Owen, who has just joined the gaggle of STEM explorers gathered around the tree. “So you can just push your stick in and say the magic words and pull it out down here!”

Our Magic Tree has evoked wonder and curiosity in the entire gang, sparking a STEM investigation that helps lay the foundation for later math, science and engineering learning. Nature has provided the ultimate learning tool and transformed a moment of outdoor play into an exploration of the concepts of spatial relationships and geometry.

As the children explore the Magic Tree, each moment of learning comes naturally and at each child’s developmental level. When the older children share the secrets of the tree with younger learners, relationship building and trust building add to the magic of the moment.

An understanding of spatial relationships helps children talk about where things are located. Physical, hands-on play like this helps build a child’s mathematical vocabulary in a natural way that is easily understood. When a child can push a stick through a cylinder shape, the concept behind the word through is easier to grasp.

So we allow the children to investigate by pushing sticks down the circle hole, through the hollow part of the tree and out again through the bottom of the trunk. This exploration of spatial relationships—which leads to an understanding of where objects are in relationship to something else—is an essential building block for later math learning.

Children need to learn the language of math to think through and solve their math challenges and then communicate their thought processes to others.

When children play and experiment with sticks and hollow trees with their friends, they learn how to problem-solve and put their thoughts into words. This strengthens their understanding of early math concepts as they use math vocabulary words repeatedly throughout their play.

Geometric shapes are a kindergarten common core standard. When children actually play with (and within) these shapes as they explore the inside of the hollow tree, the learning becomes deeper, more intentional and more relevant.

“I think it’s stuck!” yells one child.

“Wait! How many sticks are in there?” asks another.

We begin to get a better sense of measurement as we visually estimate the length of a stick that will fit into the hollow tree and come out the other side.

Opportunities like these are rich in learning, creativity and teamwork as we share theories and develop hypotheses about stick sizes and shapes, as well as angles of insertion, that will result in the “magical reappearance” of the stick at the bottom of the tree.

Problem-solving play helps children develop foundational skills that will be used in math learning in the years to come. Our gang of STEM explorers is busy making predictions, gathering data, studying cause and effect and organizing their information to try something new. We are knocking out those Illinois Early Learning Standards by the minute!

“Can we make the stick go UP the tree?” wonders Linnea.

“I’ll try!” Rowan chimes in.

Hands-on learning also enables children to take their understanding to a deeper level, so that they can analyze the information that they have collected and then apply this knowledge when they create their own experiences.

The children’s enthusiasm for experimenting with the Magic Tree is contagious. When we let children learn through play, movement and trial and error, we lay the groundwork for the kind of deep learning that builds new neural connections. These are the moments that inspire our early learners to investigate the possibilities.

When we introduce children to the vocabulary of math, we are building a foundation for future math success. This early math website has a fabulous glossary of math vocabulary words.

Introduce these vocabulary words into moments of investigative play and you’ll not only see but “hear” the connections being formed in the brains of your budding mathematicians.

If you don’t have a magic tree nearby, a large box can create the same kind of magic. Cut two holes at different heights on opposite sides of the box and bring in yardsticks or other long objects. This can also be done on a smaller, individual scale with oatmeal boxes and rulers or pipe cleaners.

The possibilities are endless, so let the STEM magic begin!

Looking for more ways to explore math concepts such as measurement and length? Check out our Links and Length lesson plan and parent letter here >

“Can you read it again? PLEASE?” 

Frigid temps and gray days lead to lots of reading as we weather the winter season.

As February unfolds, I am thrilled to present a series of STEM books guaranteed to educate, enrich and entertain early learners while the snow flies.

It’s difficult to find books that balance exceptional educational content with engaging storylines, but these books deliver on both fronts.

Each book on this list is so good that you won’t mind when your young STEM explorers beg you over and over to “read it again“!

The Storytelling Math series features children using math during their daily adventures as they play, build and explore the world around them.

These delightful stories go beyond common early math topics such as counting and shapes to explore topics such as patterns, categorizing and spatial reasoning—topics that lay the foundation for later math success but are rarely included in early math books and learning materials.

This series focuses on math concepts that young children encounter in their daily lives. Packed with content that will introduce your early learners to patterns, spatial relationships and everyday math vocabulary words, these little gems also reflect the diversity of our world with characters, authors and illustrators from a wide range of cultural and ethnic backgrounds.

Each book concludes with suggestions for further math exploration.

I love the whole series but the books featured here are our favorites!

Our most requested book in this series is Bracelets for Bina’s Brothers. This book has inspired discussions about siblings, educated us about the holiday traditions of our friends and neighbors, introduced us to patterns and engaged us in problem-solving activities. In this celebration of Raksha Bandhan (a Hindu festival honoring the sibling relationship), the youngest sibling, Bina, is determined to make bracelets for each of her three brothers. Vijay loves blue but doesn’t like green. Siddharth is fond of green but can’t stand orange. Arjun likes orange but is sick of blue. With three colors to work with, Bina works hard to get the bracelets just right. This book often leads to requests for beads as we work on our own bracelet patterns, which adds Art to our endeavors for a full STEAM experience.

As much as my gang loves bracelets, I love Usha and the Big Digger—a beautifully illustrated tale about a girl who loves trucks. This book addresses rotation, geometry and spatial relationships, along with looking at things from different perspectives. Cousins survey the same part of the night sky and see different constellations on a starry night. After they switch vantage points, they each see what the other has seen. As the cousins rotate, they see the Big Dipper rotate too. This book features Indian-American characters, as well as insights into different cultures, their interpretations of constellations and their stories about the stars. When storytime is over, you’ll find some fun STEM activities to extend the learning—as well as a great tutorial on how to do a cartwheel.

We are big fans of Sara Levine and her many science books, so I knew that we were in for a treat when I saw that she was one of the authors in the Storytelling Math series. In her book, The Animals Would Not Sleep!, it’s bedtime for Marco and his stuffed animals, but the animals will have none of it. When Marco tries to put them away, they fly, swim and slither right out of their bins. Marco tries sorting the animals in different ways, but nothing works and the animals start getting cranky. How can Marco make everyone happy and put an end to the mayhem? He thinks like a scientist to come up with a solution. This is another favorite that will stimulate plenty of discussion and help build problem-solving skills. It will also pave the way for some fun stuffed-animal play in your classroom!

Having a cloudy week and need a little bit of inspiration? Reach out to your library for any of these wonderful titles. They are guaranteed to enliven your learning and lift children and adults alike out of the February doldrums. Enjoy your winter reading adventures!

Storytelling Math was developed in collaboration with the math experts at the STEM education nonprofit, TERC, with support from the Heising-Simons Foundation.

Looking for a great resource for multicultural picture books? Check out Diverse Book Finder, the go-to resource for librarians, educators, parents and others interested in creating picture-book collections that reflect the diverse cultures and lifestyles of the children who read them.

“Hey, Evelyn!  Go get your cell phone and meet me at the stumps!” calls Noa.

My head whirls around as I check the classroom to see if a cell phone has actually made its way into school today. Then I see Evelyn running to the basket of dominoes to get her “cell phone.”

Whew! Instant relief and a touch of humor added to my day.

Dominoes have been around for centuries. They’ve been used for all sorts of games around the globe. We have baskets of dominoes scattered around the classroom. We use them for everything from building and matching to chain reactions. I’m fairly sure that we’ve never played an actual game of dominoes with these versatile learning tools!

I love these little blocks. Whatever the game, dominoes are always a Developmentally Appropriate Play (DAP) item, regardless of the ages of the children playing with them.

This morning’s “cell phone” incident got me thinking about Developmentally Appropriate Practice.

We need to trust that the teachers who work with young children on a daily basis know what’s appropriate for these children and understand how they use their materials.

Dominoes may not be designed for toddlers and preschoolers—and may even be considered to be Developmentally Inappropriate if used as intended.

Yet, by adding dominoes to our play areas and using them as manipulatives and loose parts, we can expose our early learners to a wealth of STEM learning opportunities such as building, counting, matching and even dramatic play.

Whether we’re building with our dominoes or standing each domino on end to create a chain reaction, we are laying the foundation for strong math and science skills.

This is when parents and administrators may misconstrue active learning for mere play.

When this happens, it’s our responsibility to help parents and administrators “see” the learning that is taking place. Show them how their children are developing spatial skills and an understanding of concepts such as “location” and “ordinal position.”

“Wow, Michela, your tower is getting really big!” Jameson stops to watch as Michela carefully adds another block to her structure.

Jameson has been struggling to build a tower that rivals Michela’s in height. “My tower is too wobbly,” he moans. “It keeps falling down. It’s impossible!” He stomps his foot in frustration and crosses his arms over his chest.

“You need to go very slow, like this,” responds Michela without taking her eyes off of her tower.

Michela is demonstrating the practice of science and engineering. We have geometry unfolding before our eyes as Michela uses symmetry, visualization, spatial reasoning and geometric modeling to solve problems such as balance and continuity.

By observing and asking questions, sharing ideas and solving problems, the children are working as a team to build a greater understanding of what works and what doesn’t.

This is a form of early data collection. If you are studying force and motion, a domino chain reaction is a great activity to demonstrate potential and kinetic energy.

I watch as four-year-old Thompson counts the pips (dots) on his dominoes and begins exploring concepts such as quantities and attributes.

Across the table, two-year-old Joseph is learning rote counting skills and gaining a rudimentary sense of one-to-one correspondence. By playing with the dominoes, he is also seeing the grouped pips (dots) in number formations that he will continue to see throughout his life.

I watch as an older friend mentors Joseph. In no time, Joseph is matching attributes—sometimes by pattern and sometimes by color. This is math!

We are exploring concepts such as “matching,” “same and different” and “up and down.” We are counting and beginning to understand numbers and number names. We are comparing quantities, subitizing and measuring objects and quantities. We are identifying common attributes, patterns and object relationships.

We are engaged in deep, hands-on, child-led play—without worksheets, themes or circle times. This is developmentally appropriate learning!

By providing more opportunities for children to explore, discover and investigate through active play, we are meeting one of the most important goals of early childhood education.

Invest in a variety of materials to meet the needs of children with different learning styles. It’s worth the cost. Think of it as an investment that will pay off in the future success of your early learners.

So grab those dominoes off of the shelf, place them in a basket and let the STEM learning begin!

Enjoy!

“Hey, Hudson! How did you do that?”

Eleanor is amazed at Hudson’s success as he races a car down the ramp. This is the same car that she couldn’t get to stay on the ramp just minutes earlier.

I listen as Hudson turns the car over and explains, “See those wheels? The front ones were bent. I had to take my finger and straighten that part that connects them. That is why it was going crooked.”

Eleanor is completely engaged in the moment as Hudson instructs her on the physics of motion.

We have a group of kids at our center who have grown up together, developed great friendships and built a strong early math and science foundation. Science skills enrich children’s math skills and concepts through hands-on experiences. Math is used to construct and understand data that is collected through observation. You can do math without science, but you can’t do science without doing math.

In the past few weeks, I have been reminiscing about how this group’s understanding of concepts has grown right along with their physical development. We are currently ramp and incline crazy, an activity that has piqued the children’s interest in cycles over the past few years.

Recently, inclines have dominated our play once again, and we have been doing a lot of investigative activities with ramps of all types and sizes. Experiments with force, speed and motion foster the development of scientific-inquiry skills and offer endless math opportunities, as well as great fun!

When our young friends play with inclines, they often try out new ideas and techniques. I love to listen to their theories as they engage in this rudimentary scientific exploration while mentoring and encouraging one another. Their knowledge continues to grow as they experiment and observe the outcomes. This is data collection!

Once again, we are meeting those early learning standards through long periods of uninterrupted play. Not all of their ideas will work. When they don’t, this leads to deeper communication and collaboration as the children use what they’ve learned to modify their techniques.

I watch as they observe each other’s successes and failures and try to improve on their ideas and methods to achieve their goals.

Simply placing the basket of beanbags at the top of the slide is all that it takes to encourage collaboration, cooperation and a lot of giggles. Activities such as these prompt children to explore their environment and use what they learn to design new experiments and test out new ideas as they make sense of the world around them.

By offering opportunities such as these, we are laying the foundation for the mathematical concepts and skills that they will need to perform later scientific investigations.

Ramps and Inclines provide a treasure trove of opportunities to meet your math, geometry, measurement and number standards. I love to watch the children at my center as they make predictions and then test out their theories. Sometimes with success, sometimes not so much. By reflecting on their experiences, the children are constructing their own understanding and knowledge of how the world works. Counting, classifying, measuring and comparing are some of the processes that can take place when we allow long periods of uninterrupted time for exploration and discovery.

Our play experience with ramps and inclines is a perfect example of STEM learning. The physics involved in creating stable structures and moving objects in various ways will enable us to meet our science standards for the day. Engineering happens when the children design their structures or change the way they move their objects. When they draw conclusions about how objects move through space, make predictions and collect data, we have wrapped up our STEM lessons in one pretty little package of play!

Best of all, this activity is developmentally inclusive. All ages can engage in incline play. It took less than a day for our youngest learner to figure out that the object he drops from the top of the incline will slide to the bottom. This activity keeps his attention for long periods of time and his enjoyment never ceases as he conducts his incline experiments again and again.

The joy of watching young children join in the math and science play never gets old. So grab a ramp and a few young friends and start your own math and science club!