Our Eduporium Experiment series is one of our longest running blogs. Whenever we add new STEAM solutions to our store, we try it out so we can learn all about it. Over the years, we've covered dozens of top STEAM teaching tools, offering our first-hand insights and tidbits for educators. We believe this content gives K–12 teachers valuable information when it comes to using various STEAM solutions with their students. Our team analyzes products from different points of view and even considers implementation strategies in different educational environments. Whether it's most useful in the makerspace, library, or in the general classroom, we're happy to continue providing these helpful guides. You'll even find classroom-ready STEAM projects to try with your students. Browse through the posts or use the search bar on the left to find exactly what you're looking for.
In each 'experiment,' we provide key background information on the STEAM tool being featured. From there, we explore an actual project. This allows us to discover subtle tricks and hints that are extremely helpful for educators to know. Whether it's a coding tool, educational robotics solution, or even an engineering kit, we do our best to cover everything educators are investigating. As the Eduporium Experiment series has expanded, we've come a pretty long way. Now, you can find dozens of helpful articles that may include step-by-step project guides, troubleshooting suggestions, and even our thoughts on what makes each STEAM tool worthwhile for 21st century students. Find our insights on integrating STEM tools like the Bee–Bot, Finch 2.0, Ozobot Evo, micro:bit V2, and so many more!
We found some time to research and try a different version of the 3Doodler 3D printing pen, the 3Doodler PRO. Compared to the 3Doodler Start and 3Doodler Create, the PRO version is a bit more advanced and a bit more powerful, making it a great ‘next step’ option in maker education. Keep reading to learn more about the 3Doodler PRO!
Since the release of their original Kano Computer kit, the Kano team has released more, including a touchscreen version, pixel kit, motion sensor kit, and—perhaps the most exciting one of them all—the Harry Potter Coding Wand, which happens to be the subject of this week’s Eduporium Experiment!
There have been a few programmable drones around for a bit now, but we were recently able to add the Tello EDU drone to our store and its incredibly affordable for also being programmable. So, our next step was to take it for a test flight and see what STEM learning in the classroom would be like with this compact
Educational drones have another cool component to them—a lot of them are programmable. The Airblock drone from Makeblock is one of those programmable drones and, in this week’s Eduporium Experiment, we take a look at its functions, abilities, and uses in education! Keep reading to learn more about the Airblock drone from Makeblock.
With solar devices, we have the ability to harness the Sun’s massive amounts of energy and transform it into fuel for other devices—like some of the small-scale models students can build with the Solar Mechanics Kit from Thames & Kosmos! Keep reading to learn more about this kit, its parts, and why it’s great for introducing students to alternative energy.
There are two books kids can follow—one with instructions for building the computer and another that details all of the ways kids can then code with it. Well, now Kano has a few new models (as well as classroom packs), but for this edition of the Eduporium Experiment, we’re taking a look at the Kano Touch Kit and how kids
For this week’s Eduporium Experiment, we opened up our Buildings & Bridges kit, which is part of Engino’s STEM STRUCTURES series. It’s a great way for students aged between 8-16 to not only build some pretty cool structures, but also learn the science behind engineering and the physics needed to ensure its safe and sound.
If you’re looking to expand the use of your Raspberry Pi and also expose students to more programming challenges, the MonkMakes RaspiRover Kit is a great way to combine computing, coding, and robotics. It’s an ideal kit for engaging students who are ready to take the next step with Raspberry Pi.
Engineering is a key part of 21st century education, so introduce your students to wheels, axles, and inclined planes with the K’NEX Simple Machines Kit! Recommended for students aged eight and up and as part of a 1:3 kit-to-student ratio, this kit serves as a great hands-on introduction to engineering and creative thinking.
Their printers provide some of the highest performance and include plenty of comprehensive classroom content to help both teachers and students get started and stick with the innovative opportunities 3D printing has to offer. Keep reading to learn how to integrate Robo 3D’s printers into a classroom or makerspace environment and even at home.
