Today is one of those magical winter mornings when snow blankets the ground and clings to the trees around our center.  The sun is shining and the world looks so sparkly and irresistible that we head outside in spite of the freezing temperatures.

“Hey! Who has the smiling boot?” Jacoby calls out to the group. He scans the play space, which looks like a snowy white canvas dotted with boot prints.

“Do you have the smiling boot?” he asks Maria.  

Maria looks confused as she glances down at her boots. “No, my boots are pink.” 

“No, no…on the bottom!” Jacob points to her boots. “Does your boot have a smiling face on the bottom?” 

Even I am confused by Jacoby’s question—until he points to the clue in the snow. 

“Look!” he declares. “Somebody has a smiley face on the bottom of their boot.”

Ah-hah! Indeed, we do have a smiley face boot print staring up at us from the snow-covered ground. Well, this will warm us all up!  Let the STEM investigation begin!

After a fresh snowfall, it’s so much fun to find and follow animal tracks. But we’ve never really paid attention to the patterns on the soles of our boots until now.

One by one, Maria and Jacoby begin to check the bottom of each friend’s boot. This simple moment of exploring patterns leads us to measurement, reasoning and comparing attributes.

Young children instinctively seem to notice attributes. It may be the shape, size, color, length or some other characteristics of an object, such as today’s smiling boot face.

Children develop their understanding of matching and patterns through experience. Because it’s difficult to consider a lot of attributes at once, children often begin creating sets by finding exact matches.

When children create pairs of boots or find an exact match to the smiling boot face, they are creating sets of items that are exactly alike. Maria and Jacoby are using rudimentary math, science and engineering skills as they observe and ask questions—all while solving the smiling boot print mystery!

Suddenly, everyone is stomping their boots and comparing and analyzing the shapes and patterns that their boots are leaving in the snow.

“I have zigzags!” announces Liam.

Sure enough, as we all run over to look at Liam’s boot print in the snow, we see row after row of zigzags.

“They look like mountains!” laughs Rokia. “That’s so cool!”

 “I have rectangles!” announces Rachel. “If I turn around, it looks like a house with a roof. Look!  See, at the bottom of my boot print?”  

Our focus is now very intentional and the mood has shifted from playful curiosity to deep observation and concentration. 

This is what child-led learning looks like. For those of you who believe that “child-led learning” can only lead to chaos, I urge you to put on your winter wear, head outside and see how effective and wondrous it can truly be.

“I have diamonds!” shouts Julio, “Oh and triangles at the top and bottom. Wow! Look at my boot print, it has really cool patterns.”

We are working on spatial reasoning, direction and positional vocabulary. This is the deep learning that takes place when children have ample time to explore and investigate.

Every day, children learn something new.  Every day, they deepen their understanding of STEM principles and share their insights and theories with their fellow STEM explorers.

Time is the key to deep learning!

“I have snakes!”  Josie shouts.

“Snakes?” 

Everyone comes running to see the newly discovered boot-print pattern. And, yes indeed, Josie’s boot print really does look like snakes.

But Isaac sees it differently. “I think it looks like waves,” he counters. “You know, like when you throw a rock in the river and it makes those lines?”

Then five-year-old Maya reorients the group to the smiley-face boot prints that started the morning’s STEM investigation.

“Where did that smiley face boot come from?” she asks, putting an end to the snake-shape and wave-shape discussion.

“I don’t know!” retorts a frustrated Jacoby. “That’s what I am trying to figure out!” 

“No, I mean, where did the smiley face boot print start?” Maya clarifies, assuming the role of lead investigator. “Where did you find it? Did you follow it, like we followed the cat paw prints last winter?” 

Jacoby pauses and I can see the wheels turning as he considers Maya’s questions. This is a lightbulb moment when the children suddenly recall a forgotten game from winters past. We have plenty of wandering cats in our neighborhood. For years, we have engaged in follow-the-cat-print expeditions on snowy days, following the tracks and trying to figure out the exact route that the cat took and why. Today has ushered in a new season of snow—and now we are rediscovering the game all over again.

Five-year-old Maya has had a few more years of brain development and a few more years of winter play, so she has retained more memories of those snowy-day games than the younger children who started the smiling boot print investigation.

Suddenly we are tracking movement, direction and the changes in how the boot print is left. We don’t have paper and pencils to collect data outside today, but our friends are forming hypotheses and making deductions as they piece the clues together and abandon the ideas that don’t pan out.

Maya continues as the lead investigator. “Look at the size of this boot track. It’s much bigger than our boots. See? I think it’s an adult boot print. Look how far it is between the foot prints. It takes me three steps to their two steps.”

“Maybe it’s the mail carrier,” suggests Lois.  “She brought a package to the door yesterday.”

“It can’t be the mail carrier,” reasons Maya. “She doesn’t walk on this side of the center.”

“It must be a parent!” shouts Jacoby. “Who has a parent with a smiling boot?”

The question is met with dead silence. No one knows the answer.

Suddenly, Maya turns to me and asks, “Do you have a smiling boot? You are an adult.”

Much to my disappointment and the chagrin of my young friends, I am not the owner of the smiling boot. We are getting cold and our investigation has hit a dead end. We decide to go indoors and warm up with some hot cocoa and banana muffins.

At pickup time, the children check the boots of every parent for a smiling face, but no one has the matching boot. Many weeks later, we discover that the smiling boot belongs to a grandparent of one of the children at our center. By then the thrill of the hunt is over. But the learning has not been lost. A great morning of STEM investigation is tucked away safely in the developing brains of our early math explorers.

Ready to start your own Snowy Day STEM Investigation? Check out Show Me Your Shoe, an Early Math Counts lesson plan that can be adapted for your own boot-matching investigation!

“LOOK! We have icicles!”

“Can I have one?  I need one!”

On this brisk winter morning—much to the children’s delight—nature has given us the gift of icicles. The children’s fascination with these frozen treasures leads to an abundance of “teachable moments” as we engage in some STEM learning while getting some fresh air and exercise.

Soon we are counting, sorting and measuring the icicles. I can practically see those little brain synapses firing as the children use their senses to investigate the properties of the icicles and revel in the joy of being able to choose, hold and taste their STEM lesson for the day.

“My icicle is longer than yours!”

“I like the little icicles! They fit in my mouth better!”

“I like the thick ones, they last a long time! Look how fat mine is!” 

When I hear my students discussing size, comparing attributes and sharing their math vocabulary with their friends, my heart just soars. Mathematical language is one of the strongest predictors of children’s early mathematical success. Whenever children discuss relative concepts, they are doing math!

“Aww! I dropped mine and now it is in little pieces!” Janelle wails, holding back tears.

“They still taste good!  Now you just have lots of icicles!” says the ever-optimistic Claire. “Before you had one, but now you have more! You have 1, 2, 3, 4, 5!  You have five icicles!”  

Claire touches each icicle as she counts. The ability to count in sequence and use one-to-one correspondence to determine the number in a set is known as rational counting.

Janelle has the ability to rote count, reciting the sequence in the correct order without an understanding of one-to-one correspondence or the concept of cardinality (the number of elements in a set). “I do have five!” she shouts.

“Look, I can drop mine and it doesn’t break!” yells Owen as he drops the thickest icicle to the sidewalk, only to have a few pieces chip away.

It is difficult to ask children to compare quantities if they don’t know what “more” or “less” means. If they can understand “before” and “after,” they are more likely to know, or be able to understand, what number comes after four. When children learn this language in a math context, they are ready to move on to more advanced mathematical concepts. We are building our math foundation!

“How did you make these icicles? We don’t have them at my house,” asks Rowan as she chomps on her icicle. 

“I know!” chirps Robyn. “When the sun warms up the snow on the roof it melts and turns the snow into water and the water starts dripping and then it gets cold again and makes an icicle! “

We take a long look at the ice melting off of the neighborhood roofs and other inclines and see that the dripping has indeed created icicles. We discuss how warm temperatures melt the snow and that is why our clothes often get wet, even when the snow is frozen solid on the ground. Now we have science! I love it when our play leads us right down the path to new STEM experiences and investigations.

“Oh, when our hands are warm in our mittens, it melts the snow? I never knew that!” Logan has processed the information in a way that many of his younger friends don’t have the brain development to do. He seems quite astounded by this realization. Together, we hypothesize which icicles will melt faster or whose icicle will get eaten faster.

Then we swap out our wet mittens for dry ones and hunt for more ice to expand our STEM  vocabulary.

Discussions about the weather are often rote and meaningless in early childhood classrooms. Classroom activities that involve calendars and weather patterns can be boring for young children because they are removed from the actual seasons and weather events.

But bringing the children outside to experience the weather firsthand or bringing the snow inside to be investigated on a water table is interesting. Involving the children in hands-on investigations is a much better way to teach concepts such as “winter” or “cold” than directing a child to walk over to a window and report that “It is snowing outside.”

During this busy holiday season, give yourself and your students a chance to escape the heated classroom and venture into the great outdoors to breathe in some fresh air and find your curriculum in the natural world.

I promise you that this approach will lead to far more STEM learning than talking about the weather during circle time!

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!

I did find more enjoyment in winter days when my kids were small.  There was something delightful about their sheer joy in playing in a newly fallen snow, tobogganing on a local hill, and having a gigantic snowball fight.  I love when little children are tightly wrapped in their snowsuits and they appear as wide as they are tall.  They look like Teletubbies!

The winter is a great source of curriculum in the early childhood world.  This month, we are going to look at the winter and all of its joys.  Try and think of each snowfall as a new and exciting opportunity to explore mathematical concepts with children.

Next time the snow comes, and it will, bring in a few bucketfuls and put it into the water table.  Using the sand table equipment (shovels and buckets), allow the children to explore the snow.  You can talk about how the snow is “heavy” but each snowflake is “light.” You can even incorporate the bucket balance into the play, so the children can weigh the snow.  Make sure that they wear mittens while they play and remember to put them on the heater when they are finished so they can dry out.

Spatial awareness or concepts about space and shape, are pretty interesting to young children.  Snowflakes are one way to explore shape in an engaging and meaningful way, especially if you live in a part of the world that is filled with the cold, white stuff a good part of the year.  Also, as children begin working on their cutting-with-scissors skills, creating snowflakes is great way to practice.  Some kinds of paper are harder to cut than others but the easiest paper to cut is also the most likely to tear.  I like simple copy paper for snowflakes as it is sturdy enough to withstand some three-year old torture, but light enough to cut easily with children’s scissors.

Begin by folding the paper in half and then in half again.  The difficulty in cutting increases with the number of folds, so fold the paper to meet each child’s individual developmental needs.  One fold reveals the least interesting patterns and more folds reveals more complicated designs.  Ask the children about the shapes they have created.  Show them that they can fold the paper back up and continue cutting, if they so choose.  The snowflakes will just become more interesting.

If you want them to look more like snowflakes, and you think the children may enjoy it, you can begin with circular paper.  Again, fold at will, but the thicker the folded paper is, the more difficult it is to cut. 

If you are working with older children, snowflakes are also a great place to discuss symmetry.  They provide concrete examples of “mirror images” that are easily (maybe not easily) seen. Notice how unique and distinct each of the children’s snowflakes are. No two are alike and that is what makes them special.

The cold presents a lot of possibilities for teachable moments with young children.  Discussing the weather in meaningful ways is a good idea.  Discussing the weather in rote and meaningless ways is not such a good idea. Usually, when I observe a classroom doing “the calendar” or “the weather” it is pretty boring.  It is removed from the children’s lives and is generally repetitive and disconnected.  However, bringing the snow in to the water table is interesting and is a much better way to discuss “the winter” or “the cold” than having a child walk over to the window to report, “It is snowing outside.”

Anytime you can discuss relative concepts with children, you are doing math.  Have the children touch the snow and ask, “How cold is it?”  “Is it colder than the water in the drinking fountain?” or “Is it colder than an ice cube?” Let the snow melt and find out how it changes.  Discuss this with the kids.  Have extra mittens in the classroom so they can play for a while in the water table with the snow.  Have children make snowballs and then arrange them from biggest to smallest.  Observe how they melt.  Have the children observe the differences between the melting of the small snowballs versus the large snowballs. Find out what they think about those differences.  Do they have their own ideas about why snowballs melt in this way.  Let them describe those ideas and then experiment again on another day, to see if their hypotheses hold true.

This is one simple way to talk about the cold that may be a bit more interesting to young children.  Try it and let us know what you think.