Stem Robotics Kits for Elementary or Middle School to Get Excited About STEM

Stem Robotics Kits for Elementary or Middle School to Get Excited About STEM

Robotics that teach fundamentals in STEM are perfect for children of all ages. Parents and classroom instructors may peruse advanced robotics modules online and assume that young middle and elementary students will feel overwhelmed.

Just the opposite is true. Robotics developers are working hard to make the world of robotics relatable to learners of all ages and abilities. No one can deny that robots—as smartphone apps, 3-D games, and webcam technology is making up a larger and larger percentage of young kids’ lives today. Why not harness this fascination and turn it into something that will benefit kids for the rest of their lives?

There are a wide variety of STEM robotics kits for elementary or middle school students to help them reach their full potential. All are hands-on and ask kids to discover their inner engineers, computer programmers, problem solvers, and leaders.

Get Back to the Basics with Building Blocks

Maybe you’d be surprised a robotics introduction for children can start with something as simple as building blocks. Well, the answer may be a bit of both.

Kids as young as four years old are stacking these robotic blocks and building on skills engineers use every day without even knowing it. Uniform cube shapes and magnetic faces make these building blocks versatile in their construction. Students will experiment with the power of magnets and the variety of configurations possible.

But the technology is more sophisticated than first meets the eye. These building blocks are equipped with Bluetooth software that allows them to be controlled from a smartphone or tablet device. Students will try out their coding skills as they control their building block design. Advanced computer software will allow them to experiments with such language coding techniques as variables, timing, logic, conditionals, and loops.

This STEM robotics kit for elementary or middle school is a perfect example of learning the basics before diving in deep. Many robotics new-timers feel hesitant that they have the skills needed to take on advanced robotics capable of coding. But the truth is, any robotics expert has started out the same way, one building block at a time.

Dance Your Way into Coding

What could be more thrilling for young robotics explorers than to see their inventions come to life?

In a world immersed in everything digital, kids who learn about robotics when they’re young will be better equipped as adults. Robot developers are finding new and exciting ways to show kids just what they’re capable of when it comes to programming their very own robot.

Using LED panels, remote control, and voice operation, these bots are sure to get kids hooked on computer programming. Simple instruction guided on a smartphone or tablet will have your robot rocking back and forth on its self-balanced wheels, dancing, and even talking. Kids can even control the images that pop up on the robot’s side screens.

Kids will perfect programming skills through algorithm design, command sequences and control flow, conditionals, loops, and sensors.

In no time, students who use these STEM robotics kit in elementary or middle school will feel comfortable with the basics of coding technique. By the time they reach high school, students will be ready to take on the next biggest obstacles in computer programming.


Put Your Mini Robot to the Test

For lots of students first being introduced to robotics, seeing models that look like the robots they’re used to seeing in movies will help connect the dots.

Mini robots look like the real deal and teach kids important skills in robotics at the same time. Essentially, they’re built around an open-source embedded board, connected to an IR sensor, color sensor, magnetic sensor, and DMS sensor.

These robots’ advanced technology lets them do a little bit of everything. Kids are put in charge not only of assembling their robots but coding them as well. A user-friendly interface helps kids execute basic gestures and actions. The robot can also be controlled through voice recognition and messaging systems on a smartphone or tablet device.


Find the Intersection of Robots and Biology

STEM robotics kits in elementary or middle school aren’t just teaching engineering and technology skills though. Robotics creators are now implementing initiatives that get students involved in other areas of science too.

In fact, a group of Stanford bioengineers has developed a robotic bio-kit for students that transfers precise liquid amounts from one test tube to the other. In essence, the kit mimics more expensive automation systems at a fraction of the cost.

While the kit utilizes low-cost materials, like cheap plastic syringes, it’s still a sophisticated kit that uses the same mechanics of professional equipment used in wet sciences. The machine executes such precision that it can move fluid equal in amount to a grain of salt.

As Ingmar Riedel-Kruse, assistant professor of bioengineering explains, the purpose of the kit is to get young kids learning by doing when it comes to science exposure.

The team of bioengineers has even created a set of experiments using food coloring, yeast or sugar, perfect for elementary-aged students. Tests based on this kit teaches kids about liquid density, acids versus bases, and the effects of yeast on sugar, for example.

This kit even introduces young students to the basics of programming. They’ll practice coding symbols that direct the machine with functions like: “Turn motor on” and “Do a loop”. Better yet, the kit complies with several Next Generation Science Standards (NGSS) that intersects robotics, biology, chemistry, programming and hands-on learning in one project.

The goal is to attract more students, teachers, and do-it-yourself learners in the years to come.

Robot companies are creating new products and doing whatever it takes to bring STEM robotics kit into elementary or middle school classrooms. Little do students know that introductory games, projects, and experiments in robotics may change the way they look at STEM for the rest of their lives.