At KSL, we are trying to do something so much more important than just giving kids STEAM tools (which I love), not because I want to but because the world demands that we teach kids differently. We need to support and uplift our schools to help, as they can't do it alone. If we don't teach kids creativity, innovation, how to harness and apply their imagination, how to process information along different planes, and how to think big, then they are expected to learn it on their own. This will never happen. Our education system in the U.S. does amazing things, as do the teachers who operate within its constraints. We also must appreciate that kids want to build, break, mix, and explore, not because they want to, but because its how they learn how things work. If you teach a kid the process for solving a problem, they will replicate the process very well. But this is absolutely not success. This is what you do for a robot that is not capable and equipped with one of the most powerful problem solving tools, Imagination.

https://www.linkedin.com/pulse/imagination-creativity-critical-long-term-shegan-campbell/

Whether we’re opening the refrigerator door or closing the screen of our laptop, hinges are all around us helping our world move! By investigating real objects like the small metal devices in a doorframe that help it to swing open, or the plastic lids on top of the maple syrup bottle that keep the syrup from spilling out, this week our scientists are observing that a hinge is simply something that connects two objects to help them rotate.

• Kids are building real-world connections that even parts of our bodies, like our knees and our elbows, are also hinges, helping us to do things like run fast or swing a tennis racket!

• Through creating hinges from different materials, like bendy straws and popsicle sticks, kids are discovering how the design of a hinge can affect its range of motion.

We often think of science in terms of museums, a lab table with a boring experiment, a chemical reaction, or an equation we had to memorize. While these things fit the definition, at Kids Science Labs the way we think about hands-on science is “A perspective to approach the world”. We are all scientists because we are all interested in learning.  From designing a house, to running faster, getting rid of that nasty cold, figuring out why the light bulb keeps blowing out, or trying to win a court case - we are all searching to know more. This is especially true in young kids and exactly what makes hands-on science a key feature of every kids' life. Why does the juice spill, why is the car so noisy, why can't I jump off the couch...they want to know and their natural curiosity is best met with doing real hands-on science.

The fact is that we love seeing innovative solutions to basic problems. We are often struck by creativity when someone makes an observation or develops a product that it striking in its simplicity, beautiful in its ability to solve a key problem, and makes us go “why didn’t someone think of that before, it was so obvious?”.  

It all started in Chicago in 2010 when two dads, friends, and avid problem solvers, Shegan Campbell and Keith Norsym, decided that instead of trying to find a great idea, they wanted to identify a problem that they were passionate about, and fix it. One Saturday afternoon at Panera Bread a few years ago, they asked....

"Why is it that all kids love science until about the 5th grade and then for the rest of their school years treat science as if it were boring, too difficult, or only for nerds?  And why is it that in the U.S. we don't actively teach kids how to design, create, build, and fully explore the science that they are curious about? Kids love science, so why do so few have an opportunity to explore it. Isn't science fun, mysterious, and engaging...?" The result was the creation of Kids Science Labs, the best program for engaging kids 2-12 in innovation, creativity, and design.  

We want children everywhere to experience Kids Science Labs and we are working hard to make that a reality