Search through our library of courses, select a category you might be interested in, use the search bar, or filter options on the left side of the page.

pi-top[4] Robotics Kit Alex Line Following

With a pi-top[4] unit and a robot frame built from the Robotics Kit, I show how we can program Alex to follow a blue line path using its camera, servo motors and Python programming.

pi-top[4] Robotics Kit Alex Obstacle Avoidance

Third video in the series ... with a built robot frame and your pi-top[4] unit, you can program Alex to drive around and avoid obstacles using Python language.

pi-top[4] Basics

This course is the first of a series focusing on the pi-top[4] unit for using Python programming.  Emphasis is placed on displaying its Sirius OS on a board, monitor or computer screen, connecting with a wireless network, and using the built-in Mu application to store, edit and run code.

Teaching Machine Learning with Google's Teachable Machine Tool

Machine learning is becoming an important topic in computer science classes. In this session we'll explore Google's web-based tool, "Teachable Machine," to prepare you for teaching and creating machine learning models that are both quick and accessible. We will also explore the importance of machine learning in today’s society as well as different methods for teaching this skill.

Pi-top Sounds with Speaker, PULSE and Sonic Pi

Let’s get musical! In this session, we’ll add sound with a pi-top speaker and PULSE unit. To illustrate the musical capabilities of your pi-top, we will also jump into Sonic Pi.

Sparkfun micro:arcade kit Basics

The SparkFun micro:arcade kit packs a big punch! This micro:bit extension allows you to write and code games as well as build your own gaming console. Join this session to find out all about the kit and how to get started with building games in MakeCode.

Becoming an Inventor with littleBits

With littleBits, students are encouraged to think outside the box and embrace their creativity. Join us to learn how littleBits can work to promote hands-on learning experiences and collaboration. Students are encouraged to be creative and invent, all while gaining a new understanding of STEM principles, and developing useful classroom tools.