Difference between revisions of "Element:WIFI"

From The Powder Toy
Jump to: navigation, search
(Enter a short summary [alt-b])
 
m (make it a little less confusing to read)
Line 42: Line 42:
 
WiFi can accept sparks from every conductive solid material, except for {{ User:LiquidCaesium/Template:Material | mat=NSCN }}. However, WiFi will transmit sparks into {{ User:LiquidCaesium/Template:Material | mat=NSCN }}, {{ User:LiquidCaesium/Template:Material | mat=PSCN }} and {{ User:LiquidCaesium/Template:Material | mat=INWR }}.  
 
WiFi can accept sparks from every conductive solid material, except for {{ User:LiquidCaesium/Template:Material | mat=NSCN }}. However, WiFi will transmit sparks into {{ User:LiquidCaesium/Template:Material | mat=NSCN }}, {{ User:LiquidCaesium/Template:Material | mat=PSCN }} and {{ User:LiquidCaesium/Template:Material | mat=INWR }}.  
  
There are up to 99 channels available to WiFi. A WiFi's particle is channel determined by it's temperature. Each temperature is 100 kelvins/celsius apart. First channel ranges from {{ User:LiquidCaesium/Template:Temperature | t=0 }} to {{  User:LiquidCaesium/Template:Temperature| t=72.99 }}, and after that it's hundreds of temperature, so that the next channel is {{  User:LiquidCaesium/Template:Temperature | t=73 }} to {{ User:LiquidCaesium/Template:Temperature | t=172.99 }}, and so on.
+
There are up to 99 channels available to WiFi. A WiFi's particle is channel determined by it's temperature. Each channel is 100 kelvins/celsius apart. The first channel ranges from -273.15C to -200C, and after each channel is 100C apart, so that the next channel is -200C to -100C, and so on.
  
 
This means, that all WiFis will get the signal and spark the nearby materials when one gets sparked. WiFi particle can work both as a sender and a receiver.
 
This means, that all WiFis will get the signal and spark the nearby materials when one gets sparked. WiFi particle can work both as a sender and a receiver.
  
WiFi signals cannot switch channels. This means, that a WiFi with channel 10 sends a signal, a WiFi with channel 20 will not receive it.  
+
WiFi signals cannot switch channels. This means that if a WiFi with channel 10 sends a signal, a WiFi with channel 20 will not receive it.
  
 
[[Using wifi element|A more thorough tutorial can be found here.]]
 
[[Using wifi element|A more thorough tutorial can be found here.]]

Revision as of 14:52, 15 September 2013

WIFI.png WiFi
81745231.gif
Wireless transmitter, transfers spark to any other wifi on the same temperature channel.
Properties
Section unknown Expression error: Unrecognized punctuation character "{".
Spawn temperature 22°C
Heat Conductivity 0%
Relative weight 100
Gravity 0.0
Acid dissolve rate 0%
Flammability 0
State Solid
Transitions
High pressure BRMT.png above 15.0 pressure
Source code


Creation

Only with brush, cannot be created with reactions.

Usage

WiFi can accept sparks from every conductive solid material, except for NSCN. However, WiFi will transmit sparks into NSCN, PSCN and INWR.

There are up to 99 channels available to WiFi. A WiFi's particle is channel determined by it's temperature. Each channel is 100 kelvins/celsius apart. The first channel ranges from -273.15C to -200C, and after each channel is 100C apart, so that the next channel is -200C to -100C, and so on.

This means, that all WiFis will get the signal and spark the nearby materials when one gets sparked. WiFi particle can work both as a sender and a receiver.

WiFi signals cannot switch channels. This means that if a WiFi with channel 10 sends a signal, a WiFi with channel 20 will not receive it.

A more thorough tutorial can be found here.

Gallery


Examples

A Tic-Tac-Toe game using WiFi. First result when searching "wifi" from Powder Toy.
The device in this save reads incoming WiFi signals and tells the channel they came from.