Super way to Learn Arduino | Creative
4.1 (326 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
34,411 students enrolled

Super way to Learn Arduino | Creative

From Zero To Hero | Thinking Out Of Box
4.1 (326 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
34,411 students enrolled
Created by Mohammed Zaid
Last updated 5/2020
English
English
Current price: $13.99 Original price: $19.99 Discount: 30% off
5 hours left at this price!
30-Day Money-Back Guarantee
This course includes
  • 2.5 hours on-demand video
  • 11 articles
  • 4 downloadable resources
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
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What you'll learn
  • Program in ArduinoC
  • Use Arduino board and sensors
  • Alot of knowledge and skills about how to search and take the idea to real-life
Requirements
  • basics of how to use computer and browser
Description

Updated: January 06th, 2019 | Sunday

_______________________________________

About this course: The Arduino is an open-source computer hardware/software platform for building digital devices and interactive objects that can sense and control the physical world around them. In this class, you will learn how the Arduino platform works in terms of the physical board and libraries and the IDE (integrated development environment). You will also learn about shields, which are smaller boards that plug into the main Arduino board to perform other functions such as sensing light, heat, GPS tracking, or providing a user interface display. The course will also cover programming the Arduino using C code and accessing the pins on the board via the software to control external devices.

Upon completing this course, you will be able to:
1. Outline the composition of the Arduino development board
2. Describe what it means to program the board's firmware
3. Read board schematics
4. Install Arduino IDE
5. Describe what "shields" are and how they are used
6. Specify the role of libraries in the use of shields
7. Compile and run a program
8. Name C Variables and Types
9. Name common C operators
10. Use conditionals and loops
11. Explain functions, their definition, and invocation
12. Explain the implications of global variables
13. Undertake the Arduino build process
14. Describe the role of the tools behind the IDE
15. Describe how to invoke functions in classes
16. Explain the structure of an Arduino sketch
17. Access the pins of the Arduino
18. Differentiate between digital and analog pin


and all of it through a very creative learning way, I am sure that it is going to be a short and sweet learning process for you.

If you would love to start making what you have in your mind of creative ideas, enroll and best of luck.


Best Wishes to all of you: ].

See you in class: ].

Who this course is for:
  • Anyone interested in Robots
  • Anyone interested in Programming
  • Anyone interested in making new things
  • Anyone want to make a product
  • Serious coders & hobbyists
  • Students & teenagers
Course content
Expand all 35 lectures 02:26:12
+ Introduction
9 lectures 19:46
Our Plan & Projects
00:26
Why Arduino
04:56
What Does Programming Language mean?
02:19
How to download the sketch
00:17

Hello my dear student, :)

in this quiz, we can make sure that your mind and lovely spirit is here. take it easy, this quiz is just to ensure that you got the basic information.

Quiz - You Are Here - Level One
3 questions
+ Introduction to programming and Arduino
6 lectures 22:49
Section Introduction
02:46
What does Programming mean?
04:34
What does Variable mean?
05:59

In this lecture, we will explore what the void setup() does.

it is the first function that gets executed in the code.

void setup
03:48

In this lecture, we will explore what the void loop() does.

it is the second function that gets executed in the code.

void loop
02:47
Serial Monitor
02:55
+ Start Building | Inspiring journey
15 lectures 01:24:14
LED Blinking Project
11:36
Traffic Lights Project
09:53
Creative Project with our skills
00:21
Buzzer & LEDs Project
06:49
Servo Motor Project
09:10

Code:


// Include the Servo library

#include <Servo.h>


// Create a servo object

Servo Servo1;


void setup() {

   // We need to attach the servo to the used pin number

   Servo1.attach(6);

}

void loop(){

   // Make servo go to 0 degrees

   Servo1.write(0);

   delay(1000);

   // Make servo go to 90 degrees

   Servo1.write(90);

   delay(1000);

   // Make servo go to 180 degrees

   Servo1.write(180);

   delay(1000);

}

Servo Motor Project - New
09:33
Creative Project with our skills
00:23
LDR Project
01:40
LCD Project
01:33

Explanation :

- Button

Pushbuttons or switches connect two points in a circuit when you press them.

When the pushbutton is open (unpressed) there is no connection between the two legs of the pushbutton, so the pin is connected to ground (through the pull-down resistor) and we read a LOW. When the button is closed (pressed), it makes a connection between its two legs, connecting the pin to 5 volts, so that we read a HIGH.



- Resistors

Each color has a number, as follows:

  • Black 0
  • Brown 1
  • Red 2
  • Orange 3
  • Yellow 4
  • Green 5
  • Blue 6
  • Purple 7
  • Gray 8
  • White 9

The first two striped are the first two digits of the value, so red, purple means 2, 7. The next stripe is the number of zeros that need to come after the first two digits, so if the third stripe is brown, as it is in the photograph above, then there will be one zero and so the resistor is 270Ω.

Resistor-Mohammed-Zaid

Manually - LED and Button
10:12
Creative Project + New skills
00:23
Ultrasonic Project
01:15

Code:


long duration, distance;

const int echoPin = 5;

const int trigPin = 6;



void setup() {

  // put your setup code here, to run once:

pinMode(trigPin, OUTPUT);

pinMode(echoPin, INPUT);

}


void loop() {

  // put your main code here, to run repeatedly:

digitalWrite(trigPin, LOW);

  delayMicroseconds(2);

  digitalWrite(trigPin, HIGH);

  delayMicroseconds(10);

  digitalWrite(trigPin, LOW);

 

  duration = pulseIn(echoPin, HIGH);

  distance = duration/57.8;

  Serial.begin(9600);

  Serial.println(distance);

  delay(500);

}

Ultrasonic Sensor Project
12:27

Code:


int pir = 2;

int value;


void setup() {

  // put your setup code here, to run once:

pinMode(pir, INPUT);

Serial.begin(9600);

}


void loop() {

  // put your main code here, to run repeatedly:

value = digitalRead(pir);

Serial.println(value);

delay(500);

}

Motion Sensor Project - New
08:55
Innovation in Health - Part One
00:02
+ Creative Ideas - Competitions
4 lectures 19:07
Ideas and Topics
03:04
Ideas and Topics 1
04:04
Ideas and Topics 2
06:13
Ideas and Topics 3
05:46