“Look!” squeals three-year-old Eleanor.  “I can pick up these two balls! It’s magic!”

Have you ever seen young children playing with magnets? The “magical” properties of magnets never fail to captivate early learners and spark a play buzz!

Children learn by investigating, observing and figuring out how things work. Magnets fuel that curiosity in a way that is simple and accessible.

As they explore the properties of magnets through play, children develop a deeper understanding of scientific principles by asking questions such as “why” magnets stick together and “how” magnets work.

Magnetic play helps lay the foundation for further investigations as we guide the children through activities such as developing hypotheses and theories, solving problems and making predictions. By observing and studying cause and effect, our young STEM explorers can begin to develop a basic understanding of concepts such as magnetic attraction, magnet strength and magnetic forces and fields.

Playing with magnets is a great way to introduce STEM into a child’s life. If you need to record observations, this is a great time to take a seat and watch as children incorporate predictions and conclusions into the learning experience.

To set the stage for magnetic exploration, I put out a wooden tray filled with magnetic wands and magnets in a variety of shapes and sizes. Then I give each of the children an aluminum tray to define their play space and keep the magnetic balls from rolling off of the table onto the floor.

When children add magnets or remove them from the tray, they are learning about math concepts such as more, less, off and on. They’re also learning about patterns, shapes and sizes.

I also fill simple sensory bins with colored rice or coffee beans. Then I add magnetic and non-magnetic objects, as well as a magnetic wand for finding the “treasures.” I set two baskets nearby to encourage the children to sort their objects.

“Is this magnetic?” asks one child. “This should work,” says another. “It’s silver!”

Making a prediction means focusing on what we think will happen next based on our prior knowledge. It’s considered a guess if we have no prior knowledge. We can help children develop their prediction skills when we are playing with magnets, reading a story or finding our way home on a walk.

When the children at our early learning center play with magnetic wands and balls, they love to “catch” the balls on the wand and count how many they have. Sometimes I will see them intentionally create patterns.

Playing with magnets is a powerful math and science activity in early childhood classrooms because it fosters conversation and exploration and provides a fun and engaging incentive for children to make predictions and observe outcomes.

If you can, give the children a long period of time to investigate the magic of magnets and work through their theories. This extended time to conduct STEM investigations and learn through focused play is a gift that they may not be given in their future academic lives.

It will amaze you when you see the amount of time that children will spend exploring the magnets on their tray. It’s a calm, quiet and very, very focused activity that slows down even our most frenetic friends.

As we continue to play, we engage in a discussion about the forces that pull magnets together. We keep it pretty basic. This young group hasn’t shown any interest yet in the whys and the hows of magnetic forces and fields. They are too enchanted by the magic of it all. I have been down this trail before. When the brain is ready, the questions will be asked and we will have the resources available to answer their questions and push the experiments and investigations a wee bit further out of their comfort zone. There will be many more experiments for extended learning. But, for now, exploring the magic of magnetism suits us all just fine! 

A few words of caution. Magnets are dangerous if ingested. We hope that our students no longer put everything in their mouths, but we can’t count on it. You know your students better than anyone. It is best to err on the side of caution and use large magnets that cannot possibly fit into a child’s mouth if you are at all concerned. It will make the day of magnetic play more enjoyable for YOU if you don’t have to worry.

Stay safe and take care!

Rock balancing or CAIRNS has found its way into our play again this week!

Stacking and balancing rocks encourages math and science investigations that are always developmentally appropriate. My adrenaline starts flowing and a smile grows on my face when a two-year-old child exhibits an innate sense of how to balance many more rocks than her much-older peers. Children have their own unique gifts; we just need to give them opportunities to discover their strengths and talents.

For the record, environmentalists strongly discourage this practice because it disrupts the natural order of nature. I get that. When we are hiking or playing in the woods, we follow that rule. Our outdoor classroom has a dry creek and wonderful rocks collected from parking lots and estate sales. These are our math and science rocks that are used for play.

Children who are math-and-science ready are great problem solvers. When our friends explore the concept of stacking, they make observations, collect data and investigate shapes and sizes and weight. We count, we estimate, we balance, we hypothesize. It’s science, math, language and play all wrapped up in the beauty of nature. Nothing makes me happier than finding hidden stacks of rocks somewhere in our play yard—stacks that have been left behind by inquisitive children who didn’t need to please anyone but themselves.

Two-year-old Lauren created the “ant house” above. I love that she decorated her house with flowers. I watched as she wandered over to the sandbox on the other side of the play yard to return with a handful of sand to sprinkle on the roof. I love that intentionality and vision. I love that she is barefoot with a toenail that is black and blue and may fall off, evidence of some already-forgotten adventure that didn’t go as planned. I love that she is laying the foundation for later learning in math, science and engineering through play.

You can call it STEM, STEAM or STREAM, but it’s basic childhood play. It’s long hours of uninterrupted exploration as a child works to bring an idea to fruition. It’s the brain on fire, building the synapses of learning. It’s the cement in the foundation of a lifelong learner—the evolution of a visionary, problem-solving, risk-taking master.

I often hear early educators worry out loud about meeting the benchmarks or standards required by their programs. My tip for this is to bring in natural materials, give your children TIME to play, take photos and sit down with your standards. You will be shocked at how easy this can be. Engaging young children in daily problem-solving activities will help them develop the processing skills that pave the way for future lessons in math and science. This rock-stacking experience is all about shapes and spatial reasoning. This is geometry! This is engineering! This is spatial orientation as our rock stackers exhibit an understanding of location and ordinal position. Our young stackers are often meeting standards and benchmarks before they have the vocabulary to tell us what they are doing. They gather data about their surroundings as they figure out how to balance a specific rock in the stack. And if that rock won’t balance, they’ll try another. This is organizing data and information. They are busy making predictions about outcomes by playing with rocks.

Always bear in mind, however, that brain development varies in children.

Some children may not yet be ready to meet certain standards. Some may be advanced in one area, while others may be advanced in another.

This is when you are smarter than the standards! You can’t teach a rock to balance if the rock can’t balance. You can’t teach a brain a concept if it isn’t developmentally ready to process that concept.

This is why it’s important to reassure parents that their children will be just fine in life, regardless of their child’s test scores on any given day. You can look parents in the eye on Parent Night and share all of the standards that their children have mastered through play. Then you can assure them that play is laying the foundation for the brain development and problem-solving skills that will serve their children well throughout their lives.

So bring in the math rocks. Your students will soon be sorting, comparing and working with attributes. This is an early educator’s dream.

Best of all, it’s fun! Fun for the child, a true delight for the teacher to behold and such wonderful food for the brain.

Stay safe and keep on rocking on!

If you’ve been fortunate enough to visit The Morton Arboretum in Lisle, Illinois, or driven by the Arboretum on Interstate 88, you may have spotted Joe the Guardian, a 20-foot-tall, spear-wielding troll peering down at the passing cars from atop his grassy berm. Joe is just one of six towering troll statues created by Danish artist Thomas Dambo. Fashioned from repurposed wood and other natural materials foraged from the Arboretum’s vast acreage, these incredibly detailed trolls have been delighting and inspiring visitors of all ages since they were installed as a temporary exhibition in Spring 2018. 

I like to say that Dambo never lost his childhood love of playing with loose parts. If you’ve followed my blog, you know about my own passion for using loose parts in early childhood classrooms! Some of our students have been fortunate enough to visit the trolls on weekends—and they are always eager to share their tall troll tales with their friends on Monday mornings.

Here’s some rare good news in a year that has had more than its share of bad news: The pandemic that has interrupted life as we know it has also put a pause on the trolls moving on!  If you have a chance to visit the Morton Arboretum before the end of the year, it’s worth a trip. Turn off those screens, get out of the house and breathe in some fresh air. This is STEAM learning in action that will inspire your own loose-parts play!

The Troll Hunt features a collection of trolls constructed from reclaimed wood. But these woody behemoths are 15 to 30 feet tall—a bit more than our gang is capable of constructing. Creating more diminutive trolls is definitely more our speed.

After several weeks of Monday-morning reports of troll sightings at the Arboretum, I took advantage of the trend. First, I printed out photos of the trolls to inspire our early learners to create their own versions of these mythical woodland creatures. Next, we sorted all of our loose parts into baskets and small bowls. Then we created trolls of various shapes and sizes out of small sticks, tree cookies, leaves, buckeyes, corks, shells and fabric—using bits of clay to connect the loose parts.

Architect Simon Nicholson first introduced the concept of loose parts back in the 1970s. Nicholson believed that we are all creative and that loose parts inspire children to engage in experimental, creative play, which is beneficial for child development.

What exactly are loose parts? They are materials that can be moved, carried, combined, redesigned, lined up and taken apart and put back together in multiple ways. They are materials with no specific set of directions that can be used alone or combined with other materials. (Kabel, 2010)

We like to think of loose parts as shells, rocks, sticks, acorns, feathers, pinecones, flowers, flower petals, fabric, water, sand, dirt, moss, leaves, bark, rocks, pebbles, pine needles, seeds and whatever else is native to your region. But we can also use blocks, people, animals and other manipulatives. Loose parts can range from dramatic play props to toy cars, pots, pans or pouring devices.

After studying the photos to determine the materials that were used to create the trolls at the Arboretum, the children noted that the hair on Dambo’s trolls was made from branches and observed the intricate detail on the troll faces and toenails.

Then they began to build their own trolls. At first, the children created two-dimensional trolls. But, as the troll workshop continued and they became more confident and creative in their use of loose parts, they began building in three dimensions.

“I need a leg that is the same size as his arms! See? These legs are too little!”

Jamie was not happy with his troll’s appearance. Digging through the bowl of small twigs, he discovered a longer “leg” and kept digging until he found another that satisfied him. Jamie was busy measuring, sorting and comparing his loose parts, employing nonstandard units of measurement. Sure enough, he was knocking out those early learning standards through play once more! This was a morning spent exploring concepts such as symmetry, geometric shapes and spatial awareness (how things fit in front, behind, next to or underneath something). Recognizing, predicting and building patterns are all important early math and science skills that lay the foundation for later STEM and STEAM learning.

As they engaged in these simple experiences, the children were becoming more proficient at problem-solving, reasoning, predicting and making connections in the world around them. By creating these opportunities for children to see the world through a different lens as they play with loose parts, we open up new avenues of exploration and discovery.

“Sally, you are using shells for your troll’s eyes,” Noa pointed out to her friend. “I used pine cones!”

By observing, asking questions and drawing conclusions, children develop scientific skills. Comparing and describing physical properties while creating their trolls allowed our young learners to think out loud and try out new ideas. When the children weren’t satisfied with how something looked, they would often rearrange the loose parts or start all over again. There was no anger or frustration—just calm exploration.

“Where did you find that grassy stuff for your hair?” Noa asked Sally. But Sally was deep in a state of creative flow. Sally often incorporates fabric into her creations and proceeds more slowly than her peers. But she is very deliberate about her choices. All of this takes time. We don’t need to look at the clock and decide when this activity should end. We can let the children decide. On this fall morning, the troll table sparked a play buzz that lasted for more than two hours as our troll makers followed their curiosity, becoming more confident as they took advantage of new opportunities to engage in art, math and science.

We rarely take walks without bringing home all kinds of loose parts—what the children refer to as “treasures.” If your child keeps small items in containers to create “things” with, your child is playing with loose parts! Take advantage of what you have around you. Those are your tools for setting up a math- and science-rich environment.

If you haven’t experienced the Troll Hunt at the Morton Arboretum, autumn is a great time to visit the Arboretum’s beautiful grounds and maybe find some loose parts along the way. Just be sure to call first to make an appointment, as the Arboretum is enforcing social-distancing measures to ensure visitors’ safety. Don’t forget to check into a membership when you pay for admission. That membership is your ticket to a full year of adventures at more than 300 gardens around the United States. It is a great investment or gift idea. Consider it a year of math and science curriculum as we hit the pause button on life to collect loose parts and scout out those magical, mythical trolls. Happy hunting!

“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.