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Robotics Starter
0/100 Students
Duration: 6 Months (≈ 24 Weeks) Classes per week: 2 days Total classes: ~48 sessions Tools used: TinkerCAD Circuits Electronics (virtual components) TinkerCAD Block Coding Intro to Text Coding (Arduino-style, inside TinkerCAD) Target students: Beginners (no electronics or coding background)
Robotics Starter - Curriculum
Beginner-level robotics curriculum using TinkerCAD electronics and block programming.
Introduction to Robotics: What is robotics, electronics vs programming, overview of TinkerCAD interface.
Breadboard Basics: Understanding breadboards, wires, power supply, simple LED connection.
Electronic Components: Introduction to LEDs, resistors, polarity, and safety basics.
LED Circuits: Building LED circuits with resistors and troubleshooting mistakes.
Switches & Buttons: Push buttons, slide switches, and basic input concepts.
Button Control Circuit: LED control using switches with practical simulation.
Arduino Introduction: What is Arduino, Arduino Uno pins, and digital output basics.
First Arduino Program: Blink LED program using TinkerCAD block coding.
Block Coding Basics: Understanding setup and loop blocks in TinkerCAD.
Multiple LEDs Control: Controlling more than one LED using block code.
Inputs with Arduino: Using buttons with Arduino and digitalRead concept.
Button Controlled LED: Creating interactive LED control project.
Sensors Introduction: What sensors are and introduction to LDR light sensor.
Automatic Night Light: Building light-based automatic LED system.
Analog Signals: Analog vs digital signals and potentiometer basics.
Light Dimmer Project: Control LED brightness using potentiometer.
Buzzers: Active and passive buzzers and sound output basics.
Alarm System: Button-based alarm system using buzzer.
Ultrasonic Sensor: Distance measurement using ultrasonic sensor.
Parking Sensor Project: Distance-based LED indicator system.
Logic Building: Using IF and ELSE conditions in block coding.
Smart Light System: Automatic light control using conditions.
Revision: Review of electronics, sensors, and coding concepts.
Mini Project: Smart home light system using sensors.
DC Motors: Introduction to DC motors and safety precautions.
Motor Control: Turning motors ON and OFF using Arduino.
Motor Speed Control: PWM basics and motor speed control.
Fan Simulation: Speed-controlled fan project.
Servo Motors: Servo motor operation and angle control.
Servo Control Project: Potentiometer-controlled servo motor.
Robotics Logic: Combining sensors and motors.
Obstacle Alert System: Distance-based alert using buzzer.
Automation Basics: Introduction to automation and real-life examples.
Automatic Gate: Servo-based automatic gate simulation.
Multiple Conditions: Using multiple IF conditions.
Traffic Light System: Smart traffic light logic project.
Timers and Delays: Understanding delays and timing.
Traffic Light Timer: Traffic light with timing sequence.
Block to Text Code: Understanding block code to text code conversion.
Text Code Editing: Small edits in text programming mode.
Project Planning: Planning a robotics project using flowcharts.
Project Selection: Choosing individual or group project ideas.
Project Development: Building the circuit for final project.
Coding and Debugging: Writing and debugging project code.
Final Project Build: Completing final robotics project.
Testing and Improvement: Testing and refining project.
Project Presentation: Students present their final projects.
Course Review: Course review, feedback, and next-level guidance.