GMU:Devices of Perception/Diana Suyerbayeva: Difference between revisions

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==SUMMARY==
For the summary, the installation "Crazy pickles" consisted of 10 pickles (from small to a big size) that were used as a variable resistance.
It was installed on the special exhibition pedestal, which was of the perfect hight for people to interract with this installation.
[[File:DSC_0323.jpg|400px]]

Revision as of 20:38, 14 July 2014

MY DOCUMENTATION

Day 1 (13.06.14)

Important terms:

  • DC – Direct Current (постоянный ток)
  • AC –Alternating Current (переменный ток)
  • С - Capacitor (конденсатор)
  • R – Resistance (сопротивление)
  • F – Farad (Фарад)
  • LED – Light Emitting Diode (светодиод)


Types of Resistors:

  • 1K Ohm – brown/black/red
  • 10K Ohm – brown/black/orange
  • 100K Ohm - brown/black/yellow
  • 1MEG Ohm - brown/black/green


Resistance can be in series and parallel.

1 LED
3 LED in series
3 LED in parallel








555 Timer in Astable Mode

555timerastable.jpg


555 Timer in Monostable Mode

555timermonostable.jpg


We have built in class circuit 555 Timer in Astable Mode with speaker as an output from pin 3 and with aligator clips from pin 6 and 7.

Pin367.jpg

Day 2 (14.06.14)

Types of Switches (ключ – переключатель/включатель):

  • SPST – Single Pole Single Throw
  • SPDT – Single Pole Double Throw
  • DPDT – Double Pole Double Throw
  • Tilt Switch
  • Rotary Switch


H-Bridge (H-Мост) – in that circuit motor can change directions with the switch.

Hbridge.jpg

Day 3 (15.06.2014)

Assignment: Super Conceptual Switch or Variable Resistance + Diagram/Schematic


555 Timer and transistor (Tip 122)

Tip122.jpg

ASSIGNMENT

So I chose to do Assignment 2 - "Variable Resistance"

The first idea that came to my mind was to use pickles, because they are very good conductors.

In the beginning of developing that idea, I did a few tests to see how it will work with one or two pickles.

So to the both ends of the alligator clips I attached needles, and then I was poking with them my pickles to see which sounds it will give me. While I was testing, I did some changes for the size of the resistance and capacitors.

Picklestest1.jpg


During the open lab on Thursday, I got some important tips from Darsha Hewitt on how I can develop my work. And also the same day I learned how to build circuit with two 555 Timers. And I decided to use that for more interesting sounds in my work.

Two555timers.jpg


Therefore, from two pickles, my installation grew up until 6 pieces of pickles, that are connected from the bottom with one long wire. Moreover, they are connected to each other from the top with five short wires. One aligator clip is connected to the beginning of that long wire, the other has a needle, with which you can poke all pickles to hear different sounds.

Below you can see the close-up image of all pickles together on the round brown plate (or board)


Sixpickles.jpg


And here is how the whole work looks like:

Thewholework.jpg


My Diagram for this assignment:

Mydiagram.jpg


Testing my installation:

<videoflash>vQWXQCzgnK8&feature=youtu.be</videoflash>


SUMMARY

For the summary, the installation "Crazy pickles" consisted of 10 pickles (from small to a big size) that were used as a variable resistance. It was installed on the special exhibition pedestal, which was of the perfect hight for people to interract with this installation.


File:DSC 0323.jpg