A Master Microbit(Teacher) issues out math equations to Client Microbits(Students). Students then compete to be first w/ the correct answer.
Learn how to use the radio function of the micro:bit to control remotely the Snap Circuits.
Learn how to use the photoresistor (RP) of Snap Circuits as a light sensor input for the micro:bit.
Learn how to receive input from the Press Switch (S2) of Snap Circuits and process it with the micro:bit.
Learn how to use the Press Switch (S2) of Snap Circuits as button A or button B of the micro:bit.
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.
Learn how to use the infrared receiver (U24) of Snap Circuits to detect input from remote controls with the micro:bit.
Use a TV remote control to request the micro:bit to light a lamp and automatically turns it off in 5 seconds.
Use a TV remote control to the micro:bit to turn on and off the DC Motor of Snap Circuits.
Part two of how to make an awesome, easy companion robot.
Learn how to use your micro:bit for programming the RGB LED integrated into the Color Organ of Snap CIrcuits.
Turn the LED from Snap Circuits into a Morse code beacon with the help of the BBC micro:bit.
Learn how to amplify and control the volume of the sound from the BBC micro:bit through the Speaker of Snap Circuits.
A Micro:bit-based game to help teachers train their students in math through a fun and competitive manner by counting LEDs in icons.
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