- Creating a Tinkercad account
- Tinkercad interface explained
- What is an Arduino
- Blink a LED
- Challenge: Change Blink
- Solution: Change Blink
- Introduction - Quiz
Beginner
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Quick facts
particular | details | |
---|---|---|
Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course and certificate fees
Fees information
certificate availability
certificate providing authority
The syllabus
Introduction
Electrical Engineering Basics
- The first circuit: LED and battery
- OHM's Law
- Challenge: Series connection of batteries
- Solution: Series connection of batteries
- What is a breadboard?
- Electrical Engineering Basics - Quiz
Digital Outputs
- Programming a single LED
- Important Update - Text Based Programming
- Programming a single LED - TBP_O
- Programming multiple LEDs
- Programming multiple LEDs - TBP_O
- Challenge: Play with multiple LEDs
- Solution: Play with multiple LEDs
- Project 1.0: Traffic light
- Project 1.0: Traffic light - TBP_O
- Project 1.0: Traffic light (while loop) - TBP_O
- How a buzzer works?
- How a buzzer works? - TBP_O
- Challenge: Change buzzer tone
- Solution: Change buzzer tone
- Project 1.1: Add a buzzer to traffic light
- Project 1.1: Add a buzzer to traffic light - TBP_O
- Digital Outputs - Quiz
Digital Inputs: Pushbutton
- How a push-button works?
- Challenge: Light up two LEDs with a button
- Solution: Light up two LEDs with a button
- Programming a push-button - Part 1
- Programming a push-button - Part 2
- Programming a push-button - Part 2 - TBP_O
- Challenge: Add the second LED
- Solution: Add the second LED
- Programming multiple push-buttons
- Programming multiple push-buttons - TBP_O
- Project 2: Walk button or Push-to-walk button
- Digital Inputs: Pushbutton - Quiz
Digital Inputs: Sensors
- What is a sensor?
- How a tilt sensor works?
- Programming a tilt sensor
- How a motion sensor works?
- Challenge: Add a LED to motion sensor circuit
- Solution: Add a LED to motion sensor circuit
- Programming a motion sensor
- Project 3.0 Catch the burglar
- Project 3.1 Catch the burglar
Analog Outputs
- How a RGB LED works?
- Programming a RGB LED
- Challenge: Turn off a RGB LED
- Solution: Turn off a RGB LED
Analog Inputs
- How a potentiometer works?
- Challenge: Produce any color with potentiometers
- Solution: Produce any color with potentiometers
- Serial communication and Programming a potentiometer - Part 1
- Programming a potentiometer - Part 2
- How a photoresistor works?
- Programming a photoresistor
Electric Motors
- How an electric motor works?
- How a servo motor works?
- Challenge: Change a direction of servo motor
- Solution: Change a direction of servo motor
Final Project: Smart Home
- The final project - Part 1
- The final project - Part 2
- You have done great job
Bonus Lectures
- New Year Lecture - Microbit (review)
- Seven Segment Display
Articles
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