Difference between revisions of "User:Destinshiro"

From DigitalCraft_Wiki
Jump to navigation Jump to search
Line 141: Line 141:
  
 
8.58/8.41 = 1.02
 
8.58/8.41 = 1.02
 +
 +
 +
DOOR HET VERKEERD VERBINDEN VAN DE ELEMENTEN BEGON DE BATTERIJ WARM TE WORDEN, WAARDOOR HET UIT EINDELIJK IN ELKAAR ZAKTE.
 +
ERG INTERESSANTE UITKOMST :)
 +
[[File:[[File:BAT.jpg|200px|thumb|left|alt text]]]]
  
 
----------------------------------------------------------------------------------------------------------------------------------------------------
 
----------------------------------------------------------------------------------------------------------------------------------------------------

Revision as of 21:42, 21 June 2017

Expanded Toolbox 2017

[[File:

alt text

]]

Quint Verhaart - Fashion Design

Quintverhaart@hotmail.com


Les opdracht 1: Hoe elektriciteit werkt. In groep voorgedaan als: Electron (-), Proton (+), Neutron.

[[File:

alt text

]]


ONDERZOEK EIGEN PROJECT.

Kledingstuk dat draagbaar verwarmt kan worden zonder aan een stopcontact verbonden te zijn.

Heating1.png

Heating2.png

Heating3.png

Tattoo.png

Tattoo1.png

Knitted.png

Smartphone.png


Les Opdracht 2:

[[File:

alt text

]]

Measuring Voltage

What you need (ask at the Interaction Station):

* Multimeter
* 9 Volt battery (5V in the tutorial)
* 9 Volt battery clip for in a breadboard
* 470 Ohm resistor (1K Ohm in the tutorial)
* LED
* breadboard

[[File:

alt text

]]

Outcome: Voltage 7

Resistance 465

Ampere 19.3


Measuring resistance

What you need (ask at the Interaction Station):

* Multimeter
* 3 random resistors
* 3 resistors of the same value
* breadboard

Series Resistance Outcome: Volt 1th restitor 2.38

Volt 2nd/3th 2.39

Volt 1th + 2nd together 4.77

Volt 2nd + 3th together 4.78

Volt 1th +2nd +3th together 7.16

I = V/R

9,11: 2,38 = 3,83

9,11 : 7,16 = 1,27

[[File:

alt text

]]

Parallell Resistance Outcome

Voltage van de drie restitors 8.41 


Measuring Current

What you need (ask at the Interaction Station):

* Multimeter
* 9 Volt battery (5V in the tutorial)
* 9 Volt battery clip for in a breadboard
* 470 Ohm resistor (1K Ohm in the tutorial)
* LED
* breadboard

Outcome Volt 7

Resistance 465

Ampere 19.3

[[File:

alt text

]]

Measuring voltage and current in a series circuit

What you need (ask at the Interaction Station):

* Multimeter
* 9 Volt battery (5V in the tutorial)
* 9 Volt battery clip for in a breadboard
* 3 resistors random resistors
* breadboard

Outcome Volt 9.11

Ampere 3.83

I = V/R

9,11: 2,38 = 3,83

9,11 : 7,16 = 1,27

Measuring voltage and current in a parallel circuit

What you need (ask at the Interaction Station):

* Multimeter
* 9 Volt battery (5V in the tutorial)
* 9 Volt battery clip for in a breadboard
* 3 resistors random resistors
* breadboard

Outcome:

Battery voltage: 8.58

Voltage van de drie restitors : 8.41

I=V/R

8.58/8.41 = 1.02


DOOR HET VERKEERD VERBINDEN VAN DE ELEMENTEN BEGON DE BATTERIJ WARM TE WORDEN, WAARDOOR HET UIT EINDELIJK IN ELKAAR ZAKTE. ERG INTERESSANTE UITKOMST :)

[[File:

alt text

]]


Les Opdracht 3:

Het maken van een keyboard dat door middel van geleiding via het koperen bord en de speaker geluid maakt op verschillende toon hoogtes.

In samenwerking met Iris. [[File:

alt text

]] [[File:

alt text

]]