“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!

“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! 

“AAAAUUUUGHHHHHHH! Worms! Look, look! They are everywhere!” Eleanor is jumping up and down hysterically. Nothing will bring our crew running faster than a good worm sighting!

Let the earthworm exploration begin. We love worms!

Last spring, we witnessed an unusual natural phenomenon as a mass of earthworms wiggled out of their subterranean homes in the soil and squirmed onto our sidewalk.

This weird worm event elicited great joy and excitement from our early learners as they raced over to investigate.

There are a number of names for a large group of earthworms, including a bed, a bunch, a clat or a clew. So if you casually refer to a squirming mass of earthworms as a bunch, you are technically correct!

Why are there so many?  Why are they tangled?  Will they bite me? Where is the worm’s mouth?

The curiosity is flowing faster than the answers. When you see excitement at this level, embrace the moment! Grab a camera and start documenting the Illinois Early Learning Standards that you’ll be meeting today!

Worms can be used to teach length—and we sometimes measure them with tape measures. But this is just one of the ways that worms spark investigation, inquiry and analysis in our outdoor curriculum.

Our love of worms has afforded us days and days of study. In the photo above, you can see collaboration, hypothesizing, theorizing and prediction in action.

This is a group of three-year-old scientific investigators—and their brains are on fire! This is STEM exploration at its most engaging as we measure, count, estimate and subtilize while learning about earth science and life science.

Our students are learning that living things grow and change. They are drawing conclusions from their investigations as they scrutinize the worms’ anatomy and behavior.

This fact-finding mission also fosters a respect for life in all its forms. We try really hard not to hurt our worms. When a two-year-old child engages in hands-on investigations with an earthworm, it doesn’t always end so well for the worm. To protect the worms from overzealous handling, we’ve taught the older children to monitor the well-being of the worms in the hands of their younger peers. This is hands-on learning, coupled with collaboration!

As your early learners explore the world of earthworms, encourage them to ask questions that will guide their investigations. By encouraging them to engage in deeper scientific inquiry, you’ll be setting them up for academic success in the years to come.

“Can I hold it? ” asks two-year-old Alex.

As an older friend passes a worm to Alex, she pulls her hand back a few times before she is ready to receive it.

We offer Alex a glove, but she wants to be like the “big kids” and go gloveless. After we reassure her that the worm has no teeth or pincers, she tries again. This is a good example of the importance of time and patience as we guide children through the investigative process.

People often ask how we “get” our kids to hold a worm. We read a lot of books about worms and I make sure that there are worm books on our shelves from March through October. We also observe worms for long periods of time. If our early learners have one brave friend who is willing to pick up a worm, that’s all it takes to persuade the others to persevere, despite their initial trepidation.

As the children engage in their hands-on worm investigations, we throw out facts, often in whispered voices: “Did you know that worms do not have teeth? Worms also do not have pincers or stingers. They have no eyes, legs or arms. They will never hurt us.”

These are the facts that I share with young learners who are anxious or experiencing worms for the first time. A child who investigated worms as a two-year-old last fall may not have retained that memory as a three-year-old—and we may need to reintroduce worms this spring.

Retention and problem-solving skills continue to evolve as students seek answers to their questions through active investigation. Last fall’s observer may be this spring’s hands-on investigator. Our students need long periods of time to observe and learn as this curriculum unfolds in front of their eyes.

By creating an environment that leads to discovery, you are setting your curriculum in motion. Add large rocks, tree cookies or even soil-filled planters that can serve as worm habitats. Some teachers add soil and worms to their sand and water tables to create worm farms in their classrooms. Our goal is to foster the development of inquisitive minds.

We extend our learning with songs and finger-play. We enjoy “Eat Like a Worm Day” as we snack on vegetables such as carrots, cucumbers, lettuce and apples. We make “worms” out of clay—some thick, some thin, some short and some very, very long.

Mr. Nicky (pictured above) has a wonderfully funny song titled “Earthworm,” that has taught our children so much about the vital role that worms play in keeping our soil healthy. There are many silly worm songs, but this has a great hook and gets our children moving as they learn new facts about worms while having fun. It’s one of our favorites.

We always try to return worms to their natural habitat when our observations are over. We thank the worms for doing their part to make our lawn healthy and beautiful as we release them back into the place where we found them. We send them home to their families, which resonates with our young learners.

We wish you many happy STEM adventures as you and your early learners study these champions of the soil.

Happy worm hunting!

” Hey guys! Look over here! My magnet sticks to the bike!”

On this warm November morning, our magnetic wands have brought STEM learning to our outdoor classroom. By leaving the other magnetic materials behind, I am hoping to encourage the children to harness their curiosity and creativity for other forms of magnetic exploration. Opportunities like this allow children to learn independently, as well as collectively, as they explore on their own and then share what they have discovered with their fellow magnetic explorers.

This morning’s investigation introduces the children to scientific methods such as forming hypotheses, setting up experiments to test out their hypotheses, analyzing data and recording results. We have math exploration as they learn about spatial awareness, as well as math vocabulary building as they begin to understand and label concepts such as location and ordinal positioning—all in a morning of play with friends.

“Oh, wait! It sticks on the red part, but not on the black seat,” exclaims Harrison.

As the children race over to view Harrison’s latest discovery, I note with satisfaction that they have found their own way on this morning of STEM exploration.

“Why won’t it stick on the black seat, Harrison?” I ask.

“Because it’s not metal,” Harrison shares with the group.

“It’s not metal!” the other children repeat in a chorus of little voices. We are in that modeling stage of language this month. A comment made by one child is repeated by every child, like a group of enthusiastic parrots. This behavior has been making me a bit crazy lately. But, at this moment, I am grateful.

“Wait! This part is black but my magnet sticks here.” Harrison is thinking out loud, and his comment is met with silence as the other children test out his observation and come to the same conclusion.

“Wow, Harrison, I am confused. Why does your magnet stick on the black part there but not on the black seat or the black tires?” I ask.

“This black line is metal,” Harrison shares. “It is black metal.”

The other children parrot his response as the learning continues: “Yes! It is metal—black metal!”

Harrison continues to educate his peers. “The red part of the bike is metal and this black strip here is metal. The tires and the seat are not metal.”

Soon, the magnetic exploration moves to the swings, which leads to another deep dive into STEM learning as the children use their wands to determine which parts of the swingset are magnetic and which are non-magnetic. It is also a great opportunity for us to document our research and meet more Illinois early learning benchmark standards.

We use red and green tape to document our results. Magnetic surfaces are marked with green tape (go) and non-magnetic surfaces are marked with red tape (stop).

We could also record our findings on a clipboard, but this is a fun and visual way to document our data—and it is easier for the children to understand than checkmarks on a piece of paper.

This group doesn’t read yet—and drawing pictures would have slowed down the learning process. If you happen to have an artistic child who loves charts, this is a dream day for them. Make this child your research assistant!

I love it when children learn while moving, playing and sharing with friends.

Experimenting with magnets encourages children to learn by exploring, observing and figuring out how things work. A longer period of time for discovery gives our students more opportunities to learn. I look over at the stump circle and see Eleanor quietly working her way through a solitary study of magnetic fields. Eleanor is deep in concentration as she studies and researches, collecting data and reanalyzing the magnetic poles and the attraction of the multiple magnetic wands.

“It’s called a magnetic field,” I explain. Eleanor is working through her understanding and doesn’t look up from her investigation. I watch her speculate her way through different scenarios and then I try again.

“It’s invisible!” I whisper, and Eleanor’s head pops up.

“Who doesn’t love invisible?”  I continue to whisper: “It’s that invisible power called a magnetic field that is making your magnets push or pull each other. I love invisible.”

“It’s magic!” chirps Eleanor. “I can feel it pulling me!”

Eleanor smiles as she shares her understanding with me. It never gets old for me to observe the excitement and wonder that goes hand in hand with little brains making new connections and discoveries.

The next time you head outdoors with your students, grab the magnetic wands and let the invisible magic of magnetism lead them to a new understanding of magnetic forces and fields. If you’ve gone virtual this new year, magnetic play is a great way to get your little learners to venture out into their own backyards to get some fresh air and learn about magnetism through play.

Stay safe, my friends!

“It works! The water is coming out!” Rokia cannot contain her excitement as the discovery of a full rain barrel adds a new avenue of discovery and learning for our week.

“How did you do that? Can I have a turn? Get a bucket!” The excitement builds as so many little brains begin to figure out what is happening here. We have hypotheses, theories and observation humming away. There is nothing like water to bring a group of children together for a day of play and learning that can help you meet your curriculum goals.

As the United States begins to open up with precautions in place to prevent the spread of COVID-19, there are opportunities to literally change the landscape of early childhood education by spending more time in outdoor spaces.

The best place for our children as we navigate this “new normal” is in nature. Studies show that sunlight, higher temperatures and humidity are detrimental to the survival of the coronavirus.

We also know that exposure to dirt helps young children develop healthy microbiomes and strong immune systems. Outdoor activities make social distancing easier—and research suggests that outdoor learning can deliver many other benefits, from boosting mood and increasing concentration to reducing stress.

You can meet many important early learning standards easily with outdoor play. And once you take your curriculum outdoors, you may never want to head back inside!

It’s important for anyone working with young children to understand the enormous potential for learning and brain development that exists when children are connected to nature. As children actively use their senses to explore the natural world, they are forging new neural connections and strengthening neural pathways through sensory play.

In short, outdoors is where our children need to be—and setting up an outdoor classroom is easier than you think. You don’ t even need to have a natural setting.

Water is a great place to start because we want the children in our care to wash their hands A LOT during the pandemic—and we can set up water play just about anywhere.

Incorporating water into our daily play with a rain barrel was one of the smartest things I ever did. We love using rain barrels for scientific exploration and discovery, as well as teaching children how to be good stewards of the earth’s limited resources. Many cities give away rain barrels for free to promote water conservation. If your city doesn’t have a rain barrel program, you can purchase a rain barrel for $50-$150 or make your own from a plastic trash can with a lid.

The children love to use the spigot on our rain barrel to explore the concept of flowing water and control the water’s flow. Let me tell you, being in control of something so powerful is a pretty powerful experience in its own right!

The communication and social-emotional skills that develop during this outdoor activity are worth their weight in gold. If your building has a downspout or an outdoor water source, that may be where you place your rain barrel. During very hot, dry summers, we sometimes have to resort to filling the rain barrel with our garden hose. By taking the time to think about these issues, you will help ensure the success of your own rain-barrel adventures.

We are also big proponents of tubs for water play. We use everything from big plastic tubs to utility tubs from auto stores to bus pans from restaurant supply stores to commercial school-supply tubs. This summer, we are adding soap bubbles to the buckets to encourage play and kill germs in a calm, not-in-your-face-scary-virus way. Doing this in front of the students will be a whole science and math lab in itself as they discuss the addition of ingredients, the change in matter, the chemical reaction that takes place and the change in physical properties. So, yes, grab those standards! This is the hands-on learning that we love—all while keeping our children safe from germs!

We were fortunate to have a handyman in our lives with the vision and skill to create a working pump. We buried a short, wide rain barrel and connected it to the farmhand pump. If you’d like to give this a try, you can get the step-by-step directions here. This pump has added hours and hours to our investigations and play. We absolutely LOVE our pump, and it is one of the most popular additions to our outdoor classroom. Many an hour has been spent here learning about cause and effect as the children see “what happens if….” Trust me, they have investigated the craziest ideas that adults just wouldn’t conceive of!

“Eve, come see!  Look what’s crawling under the bridge!” Jamison has discovered a daddy longlegs out for a morning stroll in our rain garden. Many cities and towns across the U.S. are beginning to award grants for rain gardens. We took advantage of our local grant program and created a rain garden filled with native pollinating plants and a dry creek that gifts us with insects, an occasional toad or two, and plenty of opportunities for exploration, observation and investigation.

Last summer, we added a mister connected to a simple garden hose to our tree. With pools closed during the pandemic, this mister (which we ordered from Amazon) is a great alternative that you can take advantage of without great expense or worries about water safety. We supplement the mister with big tubs of water and plenty of buckets and spray bottles. Heavy buckets of water and spray bottles are great resources for building strong arms, wrists and fingers for future pencil gripping. Bring in measuring cups, measuring spoons, tall containers and short wide containers and you have set your students up for outdoor learning activities that will foster the development of predicting, data analysis, probability and geometry skills.

It won’t take the children long to figure out that the mister will afford them many opportunities for water collection. This, in turn, will encourage pouring and measuring and experimenting with volume. Nearby plants, flowers, rocks, shells and other loose parts will add to the value of the play. When children make dandelion soup or rock salad, they are combining, collaborating, creating and imagining. It’s all there for us to document. They don’t need worksheets, they need play!

As we navigate our way around the pandemic, maybe we need to return to the roots of early childhood education by taking a page from the playbook of the German educator and nature lover Friedrich Froebel, who founded the first kindergarten (which translates literally to “children’s garden”). Froebel’s original kindergarten model in 1837 emphasized time and opportunities for children to connect with natural materials in a garden for play. Maybe this is what kindergarten could and should emulate as we reimagine early childhood education this year.

All of the activities that you need to meet your math and science standards are awaiting you in the garden. Head outside and lay the foundation for math and science success with a developmentally appropriate day of nature play.

Let’s take back what early education could look like in America. Join me!