Top 5 Simple Robotics Projects Students Can Try at School

Top 5 Simple Robotics Projects Students Can Try at School. Even if you aren’t experienced with robotics, these intermediate DIY projects for students can help you grasp basic engineering concepts. Who isn’t fascinated by robots? Well, they’re simply too cool. I know the kids agree with me. Robots make light work of the most complex of tasks and don’t we all deserve a little bit of rest? 

Did you know that the car that your dad drives has been assembled and painted by a robot? Or that the bottles of Pepsi you bought for your housewarming party have also been packaged by a robot Yes! Robots have become quite popular in today’s world.

Apart from the obvious benefits, it has been found that incorporating robotics in the classroom is perhaps the best way to introduce students to STEM subjects and encourage them to pursue the same. The key here is to start small and encourage them to learn by doing. That is why we have compiled a list of 5 exciting robotics projects for beginners that kids can try in schools and even their homes:

1. Build a Line Following Robot

A line following robot is interesting and easy to make. As the name implies, the robot detects and follows a predetermined line with no deviation.

It uses digital IR sensors with the help of an Arduino IDE program to detect the drawn line and runs on two motors with wheels. It’s the perfect way for students to familiarize themselves with how sensors and motors work.

For this project, you should assemble an evive, IR sensor, dual shaft BO motor, motor mount, and a wheel, acrylic base plate, caster wheel, 15mm male to female M3, 20mm M3 bolts, 12mm M3 bolts, and M3 nuts, and a screwdriver. Be sure to give it a test run once complete. Check out the step-by-step guide on how to complete this project on STEMpedia.

2. Pick and Place Mobile Robot

A pick-and-place mobile robot is among the most brilliant innovations in the history of manufacturing. It speeds up assembly applications by picking and placing parts from an incoming conveyor onto an outgoing one.

Although often used in formal manufacturing settings, it’s an easy and fun robotics project for students to try. Plus, it’s a practical way to learn about autonomous robots, and students can always take it home for repetitive pick and place domestic tasks or show off their innovation to their buddies. Check this guide on STEMpedia for detailed instructions on how to assemble this robot.

3. Obstacle Avoiding Robot

Remember how the line following robot follows and never deviates from a straight line? The obstacle avoiding one works the opposite way.

It finds its way by deviating from its path upon encountering an obstacle. It’s also an autonomous robot with components similar to the line following robot, except it uses ultrasonic instead of digital IR sensors to detect its path.

With a bit of creativity and innovation, students can even turn it into a cleaning vacuum, saving the folks hundreds of dollars on commercial options like Roomba. These instructions on STEMpedia will help you complete this project efficiently.

4. DIY Soccer Playing Mobile Robot

Watching and playing soccer is fun, but what’s even more exciting is seeing a robot mimic a human dribble and actually play the sport. And it’s surprisingly so popular and entertaining that there are robot soccer competitions, complete with soccer leagues organized annually.

Luckily, students don’t have to wait until a competition is held, as a soccer-playing mobile robot is pretty fun and effortless to make.

Like most robots, it features two wheels and a caster wheel, multiple evive pieces, a BO motor mount, M3 nuts, 8mm M3 bolts, and an acrylic base plate. Assembly is pretty straightforward, as illustrated in this easy STEMpedia guide. Students can also try more creative DIY projects using an electric motor.

5. Make a Wall Avoiding Robot

A wall-avoiding robot works the same way as the obstacle-avoiding one above, but it’s a little smarter in that it detects walls.

This type of robot is typically used in major industries like auto, manufacturing, and even space crafts. So, making it isn’t just fun but also an easy-to-digest way to introduce students to the fascinating yet vital applications of important industrial robots.

The robot works thanks to the Atmega168 microcontroller and features an Arduino USB board, ultrasonic rangefinder, noise suppression capacitors, and all other components highlighted in this step-by-step Instructable.

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