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Robotics & Electronics

12-Hour Hands-On Course — From Circuits to Autonomous Robots · 12 to 18 years

This intensive 12-hour course takes students on a journey from basic electronics to building autonomous robots. Starting from fundamentals of electricity and circuits, students learn Arduino programming in C++, sensor integration, motor control, and Raspberry Pi. The course is 90% hands-on — students work with real hardware from day one, building circuits, programming microcontrollers, and creating intelligent robotic systems.

8 Sessions (12 hours)2 sessions/week2 hours per sessioncompact size
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Robotics & Electronics

Why Kids Love This Course

90% hands-on with real hardware from day one

Arduino + Raspberry Pi programming

Build autonomous obstacle-avoiding robots

All components provided — Arduino, sensors, motors

Multiple final project options to choose from

Certificate of completion with project summary

What You'll Learn

A structured, week-by-week curriculum designed to build skills progressively.

1

Session 1: Electronics & Circuits

2 hours

  • Voltage, current, resistance, Ohm's Law, breadboard prototyping
  • Components: LEDs, resistors, capacitors, transistors
  • Projects: LED circuit, traffic light simulator, switch circuit
2

Session 2: Arduino & Programming

2 hours

  • Arduino board anatomy, IDE setup, setup() & loop()
  • Digital output, variables, delays, serial communication
  • Projects: Blinking LED, SOS Morse code, LED pattern display
3

Session 3: Sensors & Input Devices

2 hours

  • Digital/analog input, LDR, temperature sensor, ultrasonic & IR
  • Conditional statements based on sensor input
  • Projects: Automatic night light, temperature monitor, parking sensor
4

Session 4: Motors, Servos & Movement

2 hours

  • DC motors, servo motors, H-bridge motor drivers, PWM
  • Robot chassis assembly, movement patterns & functions
  • Projects: Variable speed motor, servo arm, 2-wheeled robot
5

Session 5: Autonomous Robots

2 hours

  • Combining sensors + motors for autonomous behavior
  • Obstacle avoidance algorithms, line following, PID control basics
  • Projects: Obstacle-avoiding robot, line-following robot
6

Session 6: Raspberry Pi & Final Project

2 hours

  • Intro to Raspberry Pi, GPIO pins, Python on Pi, IoT basics
  • Final project: Smart home, maze-solving robot, gesture-controlled robot, or pick-and-place arm
  • Project presentation, demonstration & certificates

Skills You'll Gain

Electronics & Circuit DesignArduino C/C++Raspberry Pi & PythonSensor IntegrationMotor Control & PWMAutonomous Systems

Tools & Kits

  • Arduino Uno/Nano
  • Raspberry Pi
  • HC-SR04 Ultrasonic
  • IR Sensors
  • DC Motors + L298N Driver
  • Servo Motors
  • Breadboard & Components

Projects You'll Build

  • 1Traffic Light
  • 2SOS Morse Code
  • 3Parking Sensor
  • 4Servo Arm
  • 5Line-Following Robot
  • 6Autonomous Navigator
  • 7Final Project