Learn how to change the brightness of the connected Red LED (D1) of Snap Circuits by writing an analog signal to the micro:bit pin.

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

Block based programming language MicroBlocks is performant enough to complete a task normally only possible in C-family of languages.

Learn how to apply special effects on the LED of Snap Circuits with the help of the BBC micro:bit.

Learn how to program the Color Organ of Snap Circuits to slowly switch through the colors of the rainbow.

Use a TV remote control to the micro:bit to turn on and off the DC Motor of Snap Circuits.

Ever wanted to track things happening in your garden or school using smart garden ornaments? Now you can using BBC micro:bits and the cloud.

Utilising a Microbit and a RTC to create a Binary clock with alarm option housed in a 3d printed box with resin inlay text.

Make a Sun & Earth rotation model to explore and analyze the daylight difference in different locations.

Micro: bit Automated Self Watering Plant

An analogue clock without physical hands which uses UVA LED's and Photo Luminescent film.

Play real chords on an electric micro: bit guitar. Enjoy micro: bit guitar by shifting the pitch up and down octaves.

Using custom bricks in conjunction with Neopixels, Microbit and RTC to make modular seven segment display clock.