For your final project, you will be using physical space as well as virtual space. Using the...

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For your final project, you will be using physical space as well as virtual space.

Using the Arduino microcontroller in tandem with p5.js, create a tool, interactive installation, game, or something of your own definition that you will share with our class at the close of the semester.

This project can be inspired by projects that can be found online and in other tutorials, but YOU should be the real author of this interactive project and you will need to demonstrate that the project is of your design.

Here are links to the document and video from the lecture of physical computing (and related) precedents:(list) (video)

To successfully complete this project, it should include:

1. Use of Arduino and p5.js

2. Use of at least 1 sensor input or output attached to the Arduino. Note that your choice of input or output must be conceptually cohesive with the content/substance of your project as a whole.

3. Use of at least 1 library beyond the serial control library is encouraged.

4. A presentation to demonstrate your process, your references to other projects in the field, the technology used, the application(s) of the project, and how you would like to build upon it or improve it (≈10 minutes in length)

Rahul · Accepted Answer

Using the Arduino microcontroller in tandem with p5.js
Using the Arduino microcontroller in tandem with p5.js
CONTENTS
ARDUINO.                                                          3
POTENTIOMETER SENSOR .                               6
P5JS.EDITOR.                                                      9
PROCEDURE.                                                     10
REFERENCES.                                                      17
1.Arduino 
Arduino is an open-source electronics platform based on easy-to-use hardware and software. It's intended for anyone making interactive projects.
Arduino senses the environment by receiving inputs from many sensors, and affects its surroundings by controlling lights, motors, and other actuators.
Sensors listen to the physical world. They convert energy that you give of when 
you press butons, or wave your arms, or shout, into electrical signals. Butons 
and knobs are sensors that you touch with your fingers, but there are many other 
kinds of sensors.
Actuators take action in the physical world. They convert electrical energy back 
into physical energy, like light and heat and movement.
Microcontrollers listen to sensors and talk to actuators. They decide what to 
do based on a program that you write.
Microcontrollers and the electronics you atach to them are just the skeleton of 
your projects, though. You’ll need to bring skills you probably already have to put 
some flesh on the bones.
For example, in one of the projects we suggest, you’ll make an arrow and atach it 
to a motor, and put them both in a box with a knob, so you can make a meter to 
tell people whether you’re busy or not. In another, you’ll put some lights and a tilt 
switch on a cardboard frame to make an hourglass.
Arduino Uno - The microcontroller develop-
ment board that will be at the heart of your 
projects. It’s a simple computer, but one that 
has no way for you to interact with it yet. You 
will be building the circuits and interfaces for 
interaction, and telling the microcontroller how 
to interface with other components.

For your final project, you will be using physical space as well as virtual space. Using the Arduino microcontroller in tandem with p5.js, create a tool, interactive installation, game, or something...

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