Module 1 Formstorming

Weekly Activity Template

Thanh Nguyen

Project 1

Module 1

Circuit experimentation

Activity 1

a simple circuit with 1 sticker light an activated simple circuit with 1 sticker light. This circuit use 1 battery a series circuit with 2 sticker lights an activated series circuit with 2 sticker lights. This circuit use 1 battery a parallel circuit with 2 sticker lights At first, only 1 light works. I thought I made a mistake somewhere in the circuit. So I made another circuit with LEDs an activated parallel circuit with 2 sticker lights. Turns out the yellow light was not positioned closely enough. a series circuit with 2 LEDs This is the circuit when I have 2 LEDs with different color. For some reason, they would not light up together After switching the white lights to yellow, they both managed to light together. The back side of the smiley face circuit The front side of the smiley face circuit. The copper tape touches the conductive threats, closing the circuit This one requires 2 batteries to work, which puzzle me. The circuit emits a very bright, blinding light a simple circuit with 1 LEDs, using graphite paint an activated simple circuit using graphite paint. The light is barely visible despite using 2 batteries a battery holder a successful check for the battery pouch a band that can check if a material is conductive by placing 2 sides of the band to the material The band requires 2 batteries to operate. Teting the band on conductive fabric an conditional circuit with 2 sticker light. The light turns on by closing the flap on the side of the circuit this circuit requires 1 battery to operate The top light is turned on by closing the top flap The bottom light is turned on by closing the bottom flap

Activity 2

A faucet in the sink A turned off circuit using the faucet's ability to extend. A turned on circuit using the faucet's ability to extend. The circuit is connected by returning the faucet to its original state My pencil case A glass cup A door lock A turned off circuit using the conductive part of the other part of the door lock to complete the circuit A turned on circuit using the conductive part of the other part of the door lock to complete the circuit. The extruded part of the door lock is conductive, and finishes the circuit when the door is closed. The pencil case with its circuit turned off when the case is closed. The glass cup with its circuit turned off when there is no water. A tower hanger A turned off tower hanger circuit. A turned on tower hanger circuit. There is a part of a circuit acting as a switch, which closes when a tower is placed upon it. The pencil case with its circuit turned on when the case is opened. A part of the circuit is continuously short circuiting the circuit, preventing the light to be turned on. When the pencil case is opened, that part of the circuit is detached, and the circuit can work normally. The glass cup with its circuit turned on when water is filled to a certain threshold. The water conducts electricity and connect it to the rest of the circuit. The electricity is very faint for this one. My marker case The pencil case with its circuit turned off when the case is closed. The pencil case with its circuit turned on when the case is opened. A part of the circuit is continuously short circuiting the circuit, preventing the light to be turned on. When the pencil case is opened, that part of the circuit is detached, and the circuit can work normally. A phone holder A phone holder with its circuit turned on when a block was placed onto it. There is a switch at the front of the phone holder. An extention cord An extention cord with its circuit turned off. An extention cord with its circuit turned on. The switch is closed when a plug is put in. A phone holder with its circuit turned off. There is a switch at the front of the phone holder. The back of the phone holder's circuit

Project 1

Final Project 1 Design

Wearable Interactive Affordance Based Circuit

A crow shaped ear cuff. Its light will turn on when worn.

Crow ear cuff when worn. A purple light can be seen coming from the eye Crow ear cuff circuit.

Non-Wearable Interactive Affordance Based Circuit

An origami paper dragon. Its lights will turn on when the tail is pulled.

Paper dragon in the normal state. Paper dragon when its tail is pulled. A white light can be seen coming from the eyes.
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