Control your Lego® Power Functions motors using your micro:bit, an infrared LED and MakeCode.

Build a simple remote control car with Micro:bit for kids.

Measures and records temperature with BBC Micro:bit.

After shaking the micro:bit, it generates a random number (0 to 31), which will be shown with the led matrix (0 to 5 dots, 5 bits).

Build a magic trick to amaze your friends that uses the micro:bit’s compass to detect a nearby magnet!

DIY craft propeller anemometer, connected to BBC Micro:bit using Snap:bit and Snap Circuits.

A Master Microbit(Teacher) issues out math equations to Client Microbits(Students). Students then compete to be first w/ the correct answer.

Show the status and sensor value to an OLED display.

Learn how to use the infrared receiver (U24) of Snap Circuits to detect input from remote controls with the micro:bit.

Learn how to program the micro:bit to turn the DC Motor (M1) of Snap Circuits on and off with the help of the NPN Transistor (Q2).

Learn how to power the micro:bit from the battery holder of Snap Circuits.

Learn how to connect a Snap Circuits LED to the snap:bit and control it with the micro:bit.

Learn how to turn your micro:bit to a countdown timer that emits light and sound using Snap Circuits components.

Build your own pot of gold for St. Patrick's Day from Lego bricks and make it count the coins with the help of Micro:bit and Snap Circuits.

Turn the LED from Snap Circuits into a Morse code beacon with the help of the BBC micro:bit.

Learn how to play sounds and music from the BBC micro:bit through the Whistle Chip (WC) of Snap Circuits.

Short of batteries? Power your Snap Circuits from the micro:bit!

Learn how to play sounds and music from the BBC micro:bit through the Speaker of Snap Circuits.

Learn how to program the micro:bit to turn the Lamp (L1) of Snap Circuits on and off with the help of the NPN Transistor (Q2).

Blow Game is based on the project "Measure Wind Speed with Micro:bit and Snap Circuits" in which two players try to over blow the other.

Turn any LED from Snap Circuits into a blinking LED. The micro:bit will automatically turn the LED on and off every second.

Learn how to use the photoresistor (RP) of Snap Circuits as a light sensor input for the micro:bit.

A Micro:bit-based game to help teachers train their students in math through a fun and competitive manner by counting LEDs in icons.

A Master Micro:bit (teacher) issues math equations to Client Micro:bits (students). Students then compete to be first w/ the correct answer.