Each spring, we eagerly anticipate the arrival of the growing season—from the greening carpet of grass to the buds bursting into blossom on the trees. We especially delight in the dandelions that can turn any grassy area into a STEM wonderland!

Dandelions introduce so many math adventures into our early childhood program. The neighborhood park is our favorite destination for a day of dandelion STEM adventures.

Our spring dandelion days create hours and hours of exploration, investigation, observation and just plain fun!  Mother Nature is serving up math opportunities everywhere we turn!

When we find ourselves in these nature-based outdoor classrooms, the learning is always developmentally appropriate and child-centered.

On the day that this photo (above) was taken, the flowers were too tall to spend much time on patterns or subitizing or blowing seed heads in the wind. We kept finding longer and longer stems, some with flowers and some with wispy white seed heads.

The giggles were contagious as the children continued to find taller and taller dandelions. It was a day that was unplanned, so the measuring tapes were back at school, but it didn’t matter!  This was a great moment for estimating, predicting and comparing attributes side by side.

“My grammy says the tallest dandelion you can find equals how many inches you will grow before your birthday!” said one STEM explorer.

Oh boy… GAME ON!  Giggles and screams of discovery floated down the hillside as our dandelion math morning took on a life of its own.

“If you grow that much, you will be a GIANT!” predicted one preschooler as Violet studied a dandelion stem that must have been at least two feet long.

“Violet! You keep finding longer and longer stems!” exclaimed another. “Wow, look at the one behind you!  Add that to your collection! Are the tallest ones up there?”

When you are yards away from your friends AND on a hill, it’s hard to determine who has found the tallest dandelion until you walk over to compare sizes and see which dandelion has the longest stem.

Measurement is one of the earliest mathematical concepts that children learn.

Comparing the sizes of objects, determining which stem is the longest, comparing which child is the tallest and identifying that a friend is high up on the hill are all examples of the ways that young learners begin to understand the concept of measurement.

By building on this rudimentary understanding, we can help lay the foundation of logic, reasoning, comprehension and critical-thinking skills that will lead to later math success.

“Did they all grow from the same seed family?” mused one dandelion hunter.

“Maybe we blew on a tall dandelion the last time we were here and the seeds got planted in the ground and grew this tall,” postulated another.

Whoa, now those are some interesting ideas! But, before we could discuss their theories, the children had moved on to yet another area of investigation.

“Hey guys! You need to pick the flower at the very, very bottom of the stem to keep your stem super long,” instructed one of the older children.

This concept was way beyond the comprehension of some of our younger friends, despite the efforts of the other children to teach them.

Ah, the beauty of multi-age groups. The beauty of allowing learning to take place as the brain and physical development allows. The beauty of friendships and childhood on a sunny spring day, when all of the stars (or, in this case, dandelions!) align and the learning comes so naturally.

I knew that we were using our math vocabulary when I heard the words, “height, tall, taller, tallest, short, shorter, shortest, long, longer, longest, more and less.”  These simple but important words proved that the children were reaping the benefits of this springtime STEM lesson without the support of lesson plans or a word wall.

Exposure to experiences such as our Spring Dandelion Day STEM Adventure enables early learners to begin to interpret the mathematical qualities in real-world settings.

By observing, measuring, comparing and analyzing objects in their environment, they are also learning more about the world that they live in.

Our springtime “field study“ offered an invaluable opportunity for young learners to practice early math skills while guiding their own mastery of important math concepts.

The experience was an empowering one for every one of our STEM explorers, inspiring the children to build on their nascent knowledge by seeking out new ideas and experiences.

Carve out time and opportunities for your early learners to acquire, practice, rehearse and build upon the skills that will carry them through their academic life. Your math curriculum and early learning standards are outside—just waiting for you!

Click here for a lesson plan on Flower Fun and measurement for your class!

“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.

“Will the children be kindergarten ready if they spend their days playing outside?”

As educators, we are often asked about kindergarten readiness by nervous parents who want to give their children the best possible start in life.

It’s important for parents—and educators—to understand that there are endless opportunities for deep learning when children are connected to nature. Young children learn primarily through their senses. The natural world—with its stimulating and constantly changing elements—provides the ultimate sensory learning environment.

When children explore the world through sensory play, they are actively building new neural pathways, which is crucial for brain development. When we slow down enough to observe this process, it’s easy to see the learning that takes place, and the social skills that are being developed, as the children collaborate on projects in the great outdoors.

On an unusually warm day in May, the boys in our program are busy building a large castle in the sandbox. This may look like nothing more than sandbox play, but there’s some deep learning going on here as our castle architects lay the foundation for future academic success.

“We should build a moat!” declares Joshua.

“Yeah, a moat!” agrees the gang. “We definitely need a moat!”

With these words, the digging begins. Before long, the castle builders decide that it’s time to add water to the moat. We have plenty of buckets at our center, but today most of the buckets are already in use.

Looking around for a way to transport the water from the pump to the sandbox, the boys settle on a nearby piece of fabric from one of their forts.

We’re all hot, tired and likely a little dehydrated at this point. A glance at the clock tells me that it’s almost closing time. But who am I to redirect the boys by pointing out the empty bucket next to the fence?

I watch as the boys carefully stretch the material out and center it beneath the pump spigot to catch as much water as they can. Asa begins pumping and, to my astonishment, the fabric holds the water without any leakage.

WHAT in the world?  I’m marveling at this unexpected development when it occurs to me that the cloth I’d purchased from the resale shop is actually a waterproof fabric used in hospital settings.

When I ask the boys if they were aware that the fabric was waterproof when they grabbed it, they respond with a question of their own: “What does waterproof mean?”

I try to explain that waterproof means that the water will not flow through the fabric. But there are times for discussion and times for action—and the boys are already focused on the next step in their plan.

First, they gather the corners of the cloth, taking care to keep the water from gushing out the sides. Then they make their way gingerly across the yard to the sandbox and carefully place the fabric in the moat.

I realize at this point that the boys had deliberately ruled out the use of buckets because they needed a flexible, waterproof liner for their castle moat.

They had assumed that the fabric they chose would hold water and, at the same time, conform to the shape of the moat. Wow! They were way ahead of me!

The boys did eventually make multiple trips to the pump to fill some buckets and add more water to the moat. But they knew that the bucket wasn’t the best tool for the initial phase of moat construction. Silly me!

This is just another example of the importance of giving young children sufficient time to engage in deep play and problem-solving (without any interference from those of us who think we have all of the answers), as well as the importance of loose parts in creative play.

Look at the delight on their faces! Okay, so the castle architect on the far right in the photo below seems to be grimacing at the weight of the load, but the other two look pretty thrilled with the success of their mission!

When we look at children playing in sand, what are WE missing? They are busy designing, creating, collaborating and communicating. They are adding and subtracting, working with shapes and molds and inclines and declines. They are adding water to change the nature of their building material. They are using spatial awareness and math and science vocabulary. They are theorizing, hypothesizing and collecting data. They are engineering and deepening their knowledge—all while playing in a box of sand!

This is the ultimate in STEM learning. Give them as much time as they need. Let them play. Add fabric to your play centers. You never know where their outdoor play will lead them—and what YOU may learn in the process!

“I found an empty nest! Can we keep it?” Owen’s joyful discovery captures everyone’s attention.

Three-year-old Avery comes running. “Are there eggs?” she asks her older and wiser five-year-old friend. “Can I see?” she begs. “Please let me see?”

“There are no eggs, just an old nest. Can we please keep it?” pleads Owen.

After a quick glance to confirm that the nest cradled in Owen’s hands is not harboring a feathered inhabitant, I grant my permission.

Owen handles the nest gingerly before realizing that it is sturdier than it looks. After a few tugs and a few moments of studying the nest, he very gently hands it over to the others.

We have a collection of nests. We love to study the materials used to build each nest, as well as the nest construction methods used by different local bird species.

We also try to guess the type of bird that built each nest and how many eggs might have been laid in these cozy homes crafted from sticks, grass, leaves, string, mud and other found objects.

I watch Ave silently investigating and collecting data as she turns the nest in one direction and then another. You can almost see the wheels turning.

“I think the bird used some litter [drinking straws, food wrappers and other debris] to build this nest.” Ave giggles. “And there are like a million sticks in here!”

“A million?” I echo.

“Maybe more!” Ave theorizes.

This moment gives me a valuable insight into Ave’s nascent number sense. Connecting numbers to quantities is a skill that will continue to emerge and evolve with age and brain development.

“The bird added string—and look at this piece of wire she wove in!” shares Maya. “It’s lightweight but very strong. How long does it take her to make this nest? I think this nest is smaller than the others we have.”

This is how we set our curriculum for the day—by following the interests of the children. When we return to our indoor classroom, we will dig out our books to learn more about the various engineering practices that local birds use to build their homes and compare this newest nest to the others in our collection.

Living along the Mississippi River as we do, we are blessed with the return of our beloved bald eagles each winter and spring. From December to March, these magnificent birds migrate south from Canada and often make our area their winter home. Some even like it so much that they make it their permanent home.

In the fall and winter, the eagles rebuild their nests to prepare for the hatching of the eaglets. Eagles nesting in our area typically lay their eggs in mid-to-late February, and the eggs hatch by mid-to-late March.

Once the eggs have hatched, the female stays with the eaglets while the male leaves to find food for the female and her hatchlings.

The eaglets grow quickly and are ready to fly—or “fledge”—by late May or early June. A number of webcams have been set up by organizations in the area so that we can watch the life cycle of the eagles playing out before our eyes.

This is where I struggle. We are a screen-free environment. I know that we can link to so much learning with technology. I know that I need to stop being so stubborn. I am that old-school playground leader who hasn’t embraced the many educational benefits of 21st-century technologies.

We weren’t always screen-free—and I have fond memories of the year when we observed a wee bit of eagle life via webcam.

I hated the screen, but I loved learning about our local eagles. When an eagle brought a large fish to the nest, we were spellbound. But the fact that we’d been sucked into spending time staring at a screen contradicted everything that I believed in regarding early education—and I was overcome with guilt.

So when the first warm day of spring arrived, we created our own eagle’s nest in the center’s outdoor play area.

“Declan, how big is an eagle’s nest?” I asked, measuring tape in hand.

“Seven feet wide,” he responded. “What are you doing?”

I quickly measured out seven feet and put a heavy rock from the rain garden on the spot. The children began adding rocks until we had a circle that was seven feet in diameter.

For a few minutes, the children pretended to be eagles living in a happy little rock nest—until one perspicacious preschooler called me out.

“Wait! This isn’t a nest!” Asa declared. “We need to add sticks and leaves and yarn. We need more!”

“We do need branches and sticks!” agreed four-year-old Joshua.

“Over here!” directed two-year-old Gabe.

Game on! Now we were learning, creating and analyzing. We’d taken what we’d learned during our screen time and translated it into real-life, hands-on learning that met so many of the math and science standards that they would struggled to achieve on a worksheet!

This was when we grabbed our books and discovered that an eagle has a wingspan of 6-8 feet. We also learned that a mature eagle has 7,000 feathers, weighs 8-11 pounds and has vision so keen that it can see the print on a newspaper at a distance equal to the length of a football field. These are the details that young children are likely to absorb.

Because bald eagles are most active from sunrise to 11 a.m. as they feed along the open water of our locks and dams, this coincides quite well with our outdoor times. Lucky for us, they return to their roosting areas in the afternoon hours.

After lunch, some time spent browsing through eagle books and a nap, the boys made their way back out to their new eagle’s nest. If they build it, they will play in it. They had been playing there for a good long time when, sure enough, up in the sky, an eagle appeared!

Yes, a  real live eagle! Would she think this was HER nest? Could she see the boys in HER nest?

As the boys contemplated the possibility of the eagle swooping down and landing amongst them, they scrambled out of their nest in pure terror.

The eagle did not land in our nest. But, sadly, our frightened little learners never returned. I left the nest in place for over a week, and some of the younger children played in it, but the boys who built it kept their distance!

I often find that most of the fun is in the building phase of the project. The collaborating, creating, adding, subtracting, analyzing and evaluating with friends is actually the play for building kids. This is the good stuff that happens with play; enough time to engage in deep, investigative learning; and, sometimes, just the right amount of technology.

Take time to follow the lead of your students and see where their interests and curiosity take you. Then match their learning up with your early learning standards.

This link will take you to the Arconic Eagle Cam.

Full disclosure: The male eagle will bring food back to the nest. This could be a raccoon, a fish or a mouse. It is nature. It is graphic. It can be addicting or terribly uneventful at any given moment!

When we build nests of our own, we often use this Scientific American site as a reference. But if you’ve lingered too long on the Arconic Eagle Cam link provided above and feel guilty about overdoing the screen time, you can just WING it—pun intended!

Ha! Let’s get outside and play.

“Do our shadows look like the monsters in the book?” asks James.

I glance over and see James and Noa connecting their shadows by overlapping their arms. When we engage children in outdoor shadow play to support active exploration and discovery, their creativity is endless!

James and Noa are playing out their version of the book, The Dark, Dark Night by M. Christina Butler. This charming children’s tale follows a frog heading home to his pond after a long winter’s sleep. Along the way, he stops to frolic with his friends Badger, Hedgehog, Rabbit and Mouse. As darkness falls, Frog borrows a lantern from his friend, Mouse, to light the way home.

But, as Frog approaches the reeds at the edge of the pond, he finds himself face to face with a HUGE pond monster with enormous claws. Terrified, Frog hightails it back to his friends. Each friend returns to the pond with Frog—only to flee when the monster reappears. But the friends ultimately realize that the fearsome “pond monster” is not a monster at all—just some scary shadows created by light from the lantern.

Our four- and five-year-old students love this tale. But we had to read The Dark, Dark Night many times before the shadow storyline finally sank in for the younger children in the group. It also took a bit of time and investigation for these younger learners to observe that, when we move, our shadows move too!

When we’re outside, we often engage in body-shadow play with the sun as our light source. Exploring the ways that shadows change as we move our bodies is a great way to get kids engaged and excited about learning. Our road is often closed to traffic during the winter months, and we always take the opportunity to grab tape measures to see how long our shadows are.

I often challenge our friends to see if they can disconnect from their shadows. After a few minutes of contorting our bodies to see if we can separate from our shadows, we decide that we can’t, but that never stops the fun and silliness of trying!

We create math shadow games by calling out different shapes and encouraging the children to do their best to create shadows in these shapes. Movements like standing on one foot, reaching up high to touch the sky and walking on all fours all help children develop body awareness.

Here’s a great way to practice fine-motor skills during shadow play: Use the sun, a projector light or a flashlight to create shadows of tiny hands on a wall. The children can work on finger isolation (e.g. pointing with the index finger, counting out the fingers on their hands and wiggling all of the fingers individually); thumb opposition (e.g. touching the thumb to each finger); and other hand positions to create different types of shadows, an activity that helps build dexterity while laying the foundation for later STEM learning. We also play “Follow the Shadow Leader” and encourage the children to recreate the leader’s shadow by duplicating his or her movements.

Shadow play also helps children develop a rudimentary understanding of cause and effect as they observe what makes a shadow and where the light needs to be to cast a shadow. By moving their shadows around, they can investigate different shapes and sizes.

“Look how dark my shadow is today! Yesterday, we could not see it very well.” Owen is the first to recognize that sunnier days and brighter lights create darker shadows. Observations like Owen’s are often followed by other STEM activities such as creating hypotheses, developing theories and collecting data as the children continue their investigations and deepen their understanding of the nature of light and shadow.

Your students may also notice that their shadows are different sizes at different times of the day. Depending on the amount of sunlight that illuminates our play space, their shadows can be longer, shorter or nonexistent.

You can also show the children how to change the size of a shadow. Move an object closer to a light source and the shadow becomes bigger. Move it away from the light source and the shadow becomes smaller.

Light and shadow play is an amazing way for children to explore their world. If the sun is shining, why not meet your Illinois Early Learning Standards for math and science while playing with shadows. Have fun!

After months of sequestering and social distancing to stop the spread of COVID-19, we could all use some fresh winter air! Nature is just what the doctor ordered to stimulate our senses while we meet our early learning standards.

The winter months offer an abundance of STEM learning opportunities, so don’t let the falling temperatures and snow chase you inside. The changing seasons lead to so many discoveries that incorporate STEM language and learning. Let’s take a quick look at just a few of the STEM learning adventures that we can provide for our early learners as we explore the winter landscape.

SNOW MOLDS

When the forecast predicts the first snow of the season, be sure to grab the toys out of the sandbox before they freeze in the sand. Then repurpose your sand molds as snow molds. It’s a great way to introduce shape and dimension into winter play.

This cold-weather activity introduces early learners to engineering design and the scientific practice of modeling as they work through their ideas in this new medium. By actively investigating, exploring and communicating with their friends, our young snow sculptors are laying the foundation for a future understanding of core scientific concepts.

When children have access to simple sandbox tools, they can explore and reimagine activities that work with sand, but may or may not work with wet or powdery snow. This leads to more investigation and more opportunities for learning. Muffin and cake pans of all shapes and sizes will also work—and open doors to endless hours of creative outdoor play. 

ICE AND ICICLES

There’s a lot of science and math in those icicles! Every winter, I grab the longest icicle that I can find and let it melt into an empty glass. This enables the children to observe the melting process while we discuss the difference between indoor and outdoor temperatures. We can also discuss why our body temperature is warmer than the outdoor temperature and why we can see our breath in the cold winter air. When the icicle has completely melted, I point out the dirt and gunk that was frozen into this seemingly pristine piece of ice. But that won’t deter our experiential learners from sucking on “nature’s popsicles.” Children learn through their senses—and I gave up the battle of trying to stop them from sucking on icicles and eating snow years ago. It’s all part of the magic of winter STEM learning.

IGLOOS

Building an igloo is easy—and there are so many learning opportunities in engineering and physics that come into play. We use large plastic bins to mold the snow into big blocks, and the igloo-building process proceeds more quickly than you might imagine.

If you’re lucky enough to get packable snow early in the season, there is a good chance that your igloo could last for a month or more. One word of caution: This lovely source of wind protection also takes a while to melt, so build it in a location where it won’t interfere with other activities. Because igloos become softer in the afternoon sun, we often redesign our igloo during the day, adding colors and water before leaving it to refreeze overnight. An igloo is well worth the investment of time and energy.

HIKING

Take a hike! Even in familiar places like your neighborhood or a local schoolyard, life looks different during the winter months. When we head out for these winter walking adventures, I introduce new vocabulary words such as “hike” or “adventure” or “excursion.”

Research shows that vocabulary building at an early age fosters future success in reading and narrows the achievement gap. As you hike with your early learners, your efforts to introduce concepts such as patterns, reflections, black ice, hibernation and wind-chill factors will lead to later learning opportunities back in the classroom.

  

SLEDDING

Oh boy! What a bonanza of science vocabulary we have here, with “speed” and “force” and “distance“! For younger children, we introduce simple vocabulary words such as “up” and “down” the hill.  Who went the “farthest“? Who wiped out the “fastest“?  We gather and analyze data as they try new routes, techniques and combinations of sled buddies. We don’t always have access to real hills—and there have been years when my class just couldn’t handle a walk to the park and sledding!  But don’t rule out that large pile of snow that the plow has pushed up at the end of the school parking lot.  It may be man-made and it may be small, but it’s a hill nonetheless! Kids just love taking small risks such as climbing up and sliding down. Last winter, I watched a three-year-old and a four-year-old spend 20 minutes trying to stay upright while sliding on their boots down an 18-inch “hill.” It doesn’t take much of an incline to open doors to STEM learning!

ANIMAL-TRACK INVESTIGATIONS

We often discover animal tracks in the snow during our outdoor investigations. We occasionally find paw prints from a raccoon or hoof prints from a deer, but most of the tracks that we find are made by neighborhood cats and dogs, as well as squirrels and birds. This tracking activity never gets old. We can try to follow their routes while making observations and forming theories. Curiosity, persistence, questioning and problem-solving are the traits of a true scientist. These real-life adventures that put science in context represent age-appropriate learning at its finest.

SNOW SCULPTURES

I’d love to tell you that we were the designers of the impressive Snow Dino below, but the truth is that we found this expressive fellow while sledding at the neighborhood park. We have some very creative college students in our neighborhood and we often observe their winter snow sculptures to get our own creative juices flowing and learn new sculpting techniques. The smiles on the faces of the children below show that they didn’t need to build the Snow Dino to enjoy the end result! If you missed our own STEM Snowman adventures earlier in the month, you can find the blog post here.

After the cold-weather fun, finish up with a comforting cup of hot cocoa, apple cider or mint tea. When the weather is warm enough to stay outside for long periods, a hearty cup of soup after you head indoors will chase away the winter chill and refuel your STEM explorers.

Thank you for sharing a year of STEM learning adventures with me and stay tuned for more in 2021!

“Look! The snow packs!  Let’s make a snowman!”

Today’s sunshine and rising temperatures have transformed yesterday’s powdery snow into packable fun—ushering in an afternoon of playful math and science learning.

These are the times when I love to pull out my camera to document the many foundation-building moments that find their way into our play. This documentation allows us to reflect on the learning, conversations and collaborations that take place—and the theories that the children develop—as they explore and investigate their environment.

So grab a mug of hot cider and join us as we unpack all of the early learning opportunities that can be checked off of your list of assessment standards during a snowy afternoon of outdoor play.

“We need three balls!” yells Hudson. “One for his head, one for the middle and one for the bottom!” Hudson has stepped up to serve as the lead architect during this day of snowman construction.

 “We need three sizes,” Jameson pipes in. “Big, bigger and even bigger!”

  “Yes, and the biggest is at the bottom,” adds Noah.

“You start out like this,” Noah explains as she packs together a small pile of snow. ”You push it and roll it and it gets bigger and bigger. Then you have to pack it down. But not too hard. If you pack too hard, it falls apart.”

As I listen in, I seize various opportunities to introduce some STEM vocabulary into our play. We discuss cause and effect, friction and experiments. I don’t expect these words to start flowing off of the children’s lips any time soon, but I never miss an opportunity to plant the seeds of knowledge in their developing brains.

“Mine looks like a square,” Jameson complains to no one in particular.

“If you rub it here just a little and chop this side a little bit, you will make a circle,” advises Avery, who is a wee bit older and more experienced in the intricacies of snowman construction.

I watch as the children form the snow into balls of different shapes and sizes. I hear vocabulary words such as “bigger,” “taller” and “heavier” as the older children compare the different snowball sizes and help me stack them one on top of the other to form snow people.  

“We need two eyes and a carrot nose and buttons for the mouth,” the children shout. “We need a hat to put on top and two branches for his arms! He needs a hat and a scarf!”

For years, the needs of my little “snow sculptors” left me scrambling for the items needed to complete their snow people. After three decades of coming up short, I discovered this snowman decorating kit on Amazon.

What a game changer! This affordable kit provides ample opportunities for STEM (and STEAM) learning. Whenever I pull this kit out, the excitement increases and the design process becomes more focused and deliberate. We have patterns and sequence and spatial reasoning. We have order and math vocabulary and collaboration. These are the moments that lead to teamwork, which is such a gift in any learning endeavor. When children work together on a project, it fosters the development of confidence and camaraderie—and culminates in a sense of accomplishment for all.

I keep my snowman kit in a plastic bin so that I know where all of the pieces are and keep the bin handy during the winter months. Every time I pull the kit out and the children scream with delight, I feel like a rock star! If you want to simplify your teaching and incorporate more STEM learning opportunities into your snow days, do yourself a favor and get a snowman kit.

The winter months offer endless opportunities to introduce children to the science behind the season as you explore and discuss environmental changes, physical properties, weather and temperature. You can pack a lot of STEM curriculum and vocabulary into your day by simply allowing your students to spend some time in the elements.

If the thought of getting all of your young snow explorers dressed and out the door feels daunting, check out our blog post, Incorporating Math into Your Cold-Weather Routines. You’ll learn how to set up separate “stations” where the children can don their own snow pants, coats, boots, hats, scarves and mittens. It’s a great system that teaches children about sequencing while encouraging them to become more independent as they gear up for their winter adventures.

It’s going to be a long winter, so bundle up and get some fresh air.  It’s good for the body, the brain and the spirit.

Stay safe my friends!

One bright fall morning, I notice that the noise level at Under the Gingko Tree is exceptionally low. A quick glance around reassures me that all of my early learners are safe and accounted for. Then I notice a quiet but intense play buzz happening in our rain garden, so I wander over to see what has captured the children’s unwavering attention for so long.

“See? We are using the log to make our hill!” Jameson explains to me. 

“We are rolling the rocks down the hill, but our hill has a tunnel!” giggles Noa. 

“They go in and then they roll down!” two-year-old Tariq tells me, trying to keep pace with his older friends.

“This rock is flat on this side. It won’t roll, just like Ricky!” Jameson reminds me. 

The rocks in the rain garden and a hollow log have triggered an idea from another one of our favorite books: Ricky, the Rock That Couldn’t Roll.

Ricky is a flat rock that can’t roll with his friends on their favorite hill. Ricky’s friends help him overcome his challenge and find a way for Ricky to play like everyone else.  

Suddenly we have piles of rocks that have the same names and characteristics as the rocks in the book. I love it when an idea takes hold and inspires creativity and collaboration as the children begin to plan an activity on their own.

We have a STEM morning unfolding in our outdoor classroom! When the children start using words like “in,” “down,” “over,” “under” and “next to,” they are laying the foundation for geometry. Oh, this is going to be a fun morning! 

As I watch the children design and develop models that represent their ideas, I think to myself, “This is what early math and science learning looks like.” Planning and carrying out simple investigations like this one will make your assessment nightmare seem like a dream. Math and science overlap so much in this morning’s quest for understanding. This is the kind of play that hones children’s problem-solving skills and enables them to meet important early learning milestones.

I see the young friends sorting and classifying piles of rocks—grouping the flat rocks together and then creating another classification for the rocks that will fit into the tunnel. I observe and listen as they demonstrate their comprehension of the sorting and classifying process by comparing and sharing descriptions. When children use words such as “short,” “wide,” “heavy” and “light,” they are using descriptors for measurement. When they are guessing, predicting, classifying and putting rocks in a specific order, they are engaging in early algebra. 

By making predictions, changing designs and collecting data for their next rock, the children are building the foundation for more advanced learning in data analysis and probability in the years to come.

“I think there is something blocking it in there….”  Jameson’s voice trails off as he inspects a rock more closely to see why it didn’t tumble in the way that he had expected. He has observed that the rock is encountering some resistance. This is friction!

This is how we lay the foundation of early science through childhood investigation and teamwork. Today, the children are learning about persistence and problem-solving, propelled by the simple but profound joy of creative play.

Now the children are discussing another STEM concept. “Should we flip the log on its other side or move it to a higher rock?” Jameson asks.

I introduce the vocabulary word for their latest STEM adventure: “elevation.”

“Like an elevator! It goes up to the top of the building!” Jameson declares.

I smile. It’s like throwing seeds into the wind. I never know which ones will land on a rock or take root in a little brain. Either way, this is learning through play. Changing the height (elevation) to get a faster roll is working with speed!

The children are also exhibiting a developing sense of spatial awareness as they work out where and in what direction the log should be placed.

“Maybe if we push it, it will go faster!” Sarah suggests.   

When you are working on those early learning standards, listen to the words that your students are using. When Sarah uses the word “push,” this is a change that leads to an action. The outcome of that action is an effect!

This is scientific investigation in progress. Words like “push,” “pull,” “launch” and “force” are all science action words. 

Ricky—the rock that started this play—is long forgotten. We have naturally moved on to racing our rocks down the tunnel. I am not sure that any child actually remembers which rock is “theirs,” but they know which rock came in first, second, third and last. These are the vocabulary words that tell us that the children are mastering rudimentary skills in numbers and operations. This is a morning of assessment magic! 

If you have ramps in your classroom, or this is the type of play that sparks your energy, try reading the book, Ricky, the Rock That Couldn’t Roll, aloud to the children. Then place some rocks that roll, along with rocks that don’t roll, in your block area. Observe the investigations that take place and check off some early learning standards of your own!

Happy November, my friends. Stay safe and keep playing!

]]> https://earlymathcounts.org/rock-and-roll/feed/ 14 13204 https://earlymathcounts.org/may-the-force-be-with-you/ https://earlymathcounts.org/may-the-force-be-with-you/#comments Sat, 17 Oct 2020 14:39:32 +0000 http://earlymathcounts.org/?p=13112     “Look! The people blocks are in a line and they crash at the bottom,  just like when we play on the slide!” This is a lightbulb moment as Evelyn transfers knowledge gleaned from a previous play experience into her current hands-on learning. A chain-reaction domino fall during today’s block play reminds Evelyn of […]]]>

“Look! The people blocks are in a line and they crash at the bottom,  just like when we play on the slide!”

This is a lightbulb moment as Evelyn transfers knowledge gleaned from a previous play experience into her current hands-on learning. A chain-reaction domino fall during today’s block play reminds Evelyn of waiting in line, forming a chain with her friends and banging into her friends at the bottom of the slide.

Learning is not learning unless it is applied to something real. This is the key to unlocking an understanding of math, science and reading skills.

Evelyn is beginning to “see” and retain her play epiphanies, building a rich experiential foundation that will help her make the most of her learning adventures today and in the years to come.

Soon, more young explorers join Evelyn at the table and our outdoor classroom grows quiet as the children engage in their own investigations with their favorite, people-shaped blocks.

We love blocks for so many reasons, but mainly because block play naturally adapts to the developmental level of the child. This is a great time to document the different math and science standards that our early learners are meeting. It’s also a good time to observe the mentoring and scaffolding that takes place as our young friends take their skills to the next level.

Our morning of block play turns out to be a great opportunity for the children to hone their fine-motor and problem-solving skills while developing traits such as patience and determination.

Because the blocks (or dominoes) do not have to be evenly spaced to set up a chain reaction, this is an activity that even our two-year-olds can master.

“Ugh, I am so frustrated!” declares Noah with a laugh. The children use the word “frustrated” many, many times during the activity because they enjoy mastering a new word (and because every other child at the table is using it), rather than as a true expression of frustration.

This is play! It is also a wonderful opportunity to share math and science vocabulary words such as force, push, speed, predict, hypothesis, distance, length and probability. I toss these words out like seeds to be planted for future understanding. Some of the children grasp these vocabulary words immediately and incorporate them into a new lexicon that reflects their growing understanding of mathematical and scientific principles.

“Hey! You are in my way!” shouts Eve as her line of block people intersects with Sally’s. I watch as Sally takes notice with an air of quiet concentration. “I know! Let’s make a square!” Eve shouts again before Sally can problem-solve her way out of the temporary crisis. Suddenly, we have collaboration and a new plan. We are creating shapes and timing our push-offs to coincide with those of our friends. We have teamwork and data analysis to see if the plan will work, where the blocks will meet and who will “win”!

Our morning of block people play takes off in many directions. They are counting and creating lines and curves and talking about direction and using words like far, near, behind, in front of and flat. This is geometry! They are also using words like never, impossible, probably and always—the language of data analysis and probability.

Jamie is quietly working on a whole new investigation. He has moved on to stacking, which takes a bit more patience and determination, and he really is getting frustrated! He has a plan and he knows what he wants to do, but the slightest movement on the table sends his circus act crashing down.

Jamie is our busy, rambunctious, always thinking, always moving friend. When he slows down enough to work on a project like this stacking challenge, he gives it the same 100% effort that he gives to nearly every activity in his day.

When we give children the materials and the time to explore and play, we can relax and remember that this is learning. This approach helps form the successful students and problem-solvers of the future!