Difference between revisions of "Expanding the toolbox 2015"

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  * [http://www.electronics-tutorials.ws/resistor/res_3.html Resistors in Series]
 
  * [http://www.electronics-tutorials.ws/resistor/res_3.html Resistors in Series]
 
  * [http://www.electronics-tutorials.ws/resistor/res_4.html Resistors in parallel]
 
  * [http://www.electronics-tutorials.ws/resistor/res_4.html Resistors in parallel]
 +
* [https://learn.adafruit.com/multimeters/overview Ladyada on Multimeters]

Revision as of 07:57, 12 May 2015

Project

* Find or design a project / circuit to build
* build it
* modify / adapt it
* document

There are a few requirements

* The project needs to have a relation to your own practice.
* The circuit is part of the entire aesthetics and concept.
* For the final project there is no breadboarding allowed (you can use a breadboard for prototyping though)
* Remember your focus is to expand your toolbox, experiment and process is important. Document!
* Don't overcomplicate, you need to be able to explain what is going on. 
* A written reflection document including documentation of your circuit.

Inspiration

* Stan Wannet, Logica / 0
* Tristan Perich, 1-Bit Symphony
* Tristan Perich, Drawing Machine
* Peter Vogel, The sound of shadows
* Tom Verbruggen, Crackle Canvas
* Tom Verbruggen, Module #2
* Jerobeam Fenderson, Oscilloscope Music
* Jerobeam Fenderson, Khrang

Techniques

* Circuits, dead bug style
* Wire wrapping
* Parallax breadboard tutorial
* PCB making, Toner transfer method
* PCB making, etching
* PCB making, fab house

Week 1 homework

Although this homework may be a bit boring, it is fundamental to your understanding of electronic circuits. Look at it as a material study. You can use a resistor calculator to help you with the resistor color code (See resources below)

* Create a personal wiki page and link to it here. You will need to keep your progress and document your results on this page. See for an howto: http://opensource.wdka.nl/wiki/Wiki_Writing_Workshop

Circuit with one resistor

* Make a circuit with one battery and a resistor. Note the voltage of the battery and the resistance of the resistor.
 * What is the voltage across the resistor
 * What is the current through the resistor
 * What happens to the current and voltage if you double the resistor value
 * What happens to the current and voltage if you half the resistor value

Circuit with two series resistors

* Make a circuit with one battery and two resistors in series. Note the voltage of the battery and the resistances of the resistors.
 * What is the voltage across each resistor
 * What is the current through each resistor
 * What happens to the current and voltage if you double the resistor value of one resistor
 * What happens to the current and voltage if you half the resistor value of one resistor

Circuit with three or more series resistors

* Do the same for three or more resistors in series

Circuit with two parallel resistors

* Make a circuit with one battery and two resistors in parallel. Note the voltage of the battery and the resistances of the resistors.
 * What is the voltage across each resistor
 * What is the current through each resistor
 * What happens to the current and voltage if you double the resistor value of one resistor
 * What happens to the current and voltage if you half the resistor value of one resistor

Circuit with three or more parallel resistors

* Do the same for three or more resistors in parallel

Extra: Circuit with resistor and LED

* Make a circuit with a 9V battery, a 470 Ohm resistor and an LED.
 * What happens when you use a higher value resistor, how high can you go, what happens?
 * What happens when you use a lower value resistor, how low can you go, what happens?

Resources

* Resistor color code
* Resistor color code calculator
* Resistors in Series
* Resistors in parallel
* Ladyada on Multimeters