Advanced STEM Robotics Activity Kits for High School Students

Advanced STEM Robotics Activity Kits for High School Students

For high school students who have been participating in robotics for many years, they’re probably looking for a challenge to push the boundaries and test their full capabilities. After all, high school students heavily involved in their community or school robotics program may be considering a career in robotics.

Fortunately, high school classroom instructors, community leaders, and homeschool parents have a wide range of STEM robotics activity kits for high school to choose from, each which focuses on a special area of expertise. Robots kits range in price and the amount of assembly required.

Find a robotics kit that will be the right fit for you and your team.

Drone Kits

Let’s face it, classroom science instruction closely guided by the textbook material can become dull for students who grow accustomed to learning about science in a 2-dimensional world. Classroom teachers who incorporate drones into standard curriculum give their students a new perspective on the world of STEM and robotics (literally) in a way that they couldn’t do themselves otherwise.

Drones change up the pace of an average day spent sitting in chairs behind desks. When students use drones, they can get outside and explore. Meanwhile, they’ll be developing advanced skills in computer programming need to see their drone take off for the first time. This is a great trial-and-error practice for students to see the fruits of their labor in real time—to assess what’s working well and what needs to be improved.

For most high school students, using drones as a coding exercise is enough of a challenge. However, students who also want to test their mechanical skills can test a drone kit which requires assembly. Many students meant for students to assemble also come with re-buildable versions of the same kit.

When choosing the perfect drone kit, students and instructors can look for special features like forward-facing cameras that take HD video and HD photos with color and white balance, high-quality movie resolution, removable Micro-SD card, data port and USB cable, LCD screen displays,  and backup batteries to double flight time.

The price of drone kits can range dramatically. Some of the simplest, cheapest drones can go for around $100 where advanced drones used for educational purposes with instruction booklets and full assembly required begin around $1,500.

Most advanced drone STEM robotics activity kits for high school are meant for students in groups of 4-6. While high school students are in charge of programming their drone, actual test flights should be supervised by an adult 18 years or older.


Raspberry Pi or Arduino-Based Robots

Other STEM robotics activity kits for high school students meet at the intersection of mechanics, electrical engineering, and computer programming.

These types of robots, made especially for students grades 7-12, emphasize such skills as electronics, graphical programming, and Arduino and Python programming. Common building materials include Anodized 6061 aluminum mechanical parts, encoder motors, and wireless capabilities via a Bluetooth connection.

Maximizing these functions and this robot’s versatile construction, students will be able to build a robot tank to grip, lift, and relocate objects; create a camera dolly capable of maneuvering a 360 degree radius; use a smartphone’s 360 filming feature mounted atop the robot’s base; or even devise a self-balancing robot that’s set atop two self-balancing wheels.

These STEM robotics activity kits for high school students come with basic building materials like aluminum extrusion parts, plastic timing pulleys 90T, plastic gears, track and wheels, cables, and connector parts. Most of these beginner kits can be programmed using graphical programming, Arduino programming, Python programming, and Node JS programming.

Robots with these features can range in cost but can average around $500.00 for a beginner kit with 3-D and camera-mounting capability.


Humanoid Robots

Perhaps this is a STEM robotics activity kits for high school students to add to the science teacher’s wish list. These humanoids robots, which can reach into the $10,000s are leading in research and educational robotics investigation.

Humanoid robots are a perfect introduction in the areas of science, technology, mathematics, and programming. The platform allows high school students to work with advanced technology skills to understand robotics in the classroom, and also gives them a better appreciation of how the field is advancing in the world around them.

These robotics kits come equipped with 1 humanoid robot, a full software development kit (SDK) 1 application program interface (API), 1 battery and 1 charger. Students will also gain advanced skills in robot sensors, such as tactile Sensors, ultrasonic sensors, force sensors, infrared sensors, HD cameras, and microphones. Software programs allow students to practice coding skills in API in Java, C++, C# (.Net), Matlab, and Python.

Students and teachers alike benefit from bringing humanoid robotics into the classroom. For students, they’ll get hands-on learning in STEM skills, and harbor motivation to pursue careers related to programming and engineering, and build on communication and problem-solving skills.

For teacher and homeschool instructors, they’ll make engaging labs a bigger portion of classroom learning, improve test scores and daily academic achievement, and encourage students who normally play a less-active role in the class to get involved.

High school students who get involved in robotics clubs are putting themselves at a major advantage when it comes to competing in the academic world, for scholarships, or for a career in STEM. But robotics shouldn’t only come into play in after-school or club activities. Classroom instructors who want to spark their students’ interest can implement robotics into their regular classroom routine to change the way their students see science.

As students engage with drones, Raspberry Pi or Arduino-based robots, and humanoid robots, they’ll be more interested in the world of robotics around them and the opportunities to solve the biggest challenges the world faces today simply by pushing the limits of all that robots can do. Science instructors, after all, are training the robotics experts of the next generation to come.