Difference between revisions of "Element:WIFI"

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| identifier = DEFAULT_PT_WIFI
 
| identifier = DEFAULT_PT_WIFI
 
| name = WIFI
 
| name = WIFI
| description = Wireless transmitter, transfers spark to any other wifi on the same temperature channel.
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| description = Wireless transmitter, transfers spark to any other WIFI on the same temperature channel.
 
| colour = 40A060
 
| colour = 40A060
 
| menusection = SC_ELEC
 
| menusection = SC_ELEC
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== Usage ==
 
== Usage ==
There are 101 "channels" available to WiFi. A WiFi particle's channel is determined by its temperature. The first channel ranges from 0 to 73.15°K (-273.15 to -200°C), and after each channel is 100° apart, so that the next channel is 73.15 to 173.15°K (-200 to -100°C), and so on.  
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There are 101 channels available to WiFi. A WiFi particle's channel is determined by its temperature. The first channel ranges from 0°K to 73.15°K (-273.15°C to -200°C), and after that, each channel is 100° apart. For example, the next channel would be from 73.15°K to 173.15°K (-200°C to -100°C), and so on.  
  
The easiest way to set the channel is to use PROP. Change the WIFI's temperature to the channel, multiplied by 100. For example, to get channel 47, you would set the temp to 4700. The actual channel is shown in .tmp, to make it easier to see.
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The easiest way to set the channel of WiFi is to use PROP. Simply change the WiFi's temperature to the channel multiplied by 100. For example, to get channel 47, you would set the temp to 4700. The actual channel is shown in the .tmp value in order to make it easier to see.
  
When a particle of WiFi is sparked by any material ''except'' {{Material|NSCN}}, all WIFIs on that channel will output {{Material|SPRK}} to any {{Material|PSCN}}, {{Material|NSCN}} and {{Material|INWR}} that are touching the wifi (including diagonally).
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When a particle of WiFi is sparked by any material ''except'' {{Material|NSCN}}, all WIFIs on that channel will output {{Material|SPRK}} to any {{Material|PSCN}}, {{Material|NSCN}} and {{Material|INWR}} that are touching the WIFI particle.
  
 
==Reactions==
 
==Reactions==
WiFi does not conduct heat, but its temp can be changed by {{Material|PROT}}.  
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WiFi does not conduct heat, but its temp (and thus channel) can be changed by {{Material|PROT}}.  
  
{{Material|EMP}} will randomly change the temperature of WIFI that is being sparked.  
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{{Material|EMP}} will randomly change the temperature of WIFI when it is active.  
  
When the pressure of WIFI is above 15, WiFi will break into {{Material|BRMT}}, which will immediately melt if the channel was above 10 (1000°C)
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When the pressure is above 15, WiFi will break into {{Material|BRMT}}, which will immediately melt if the channel of the original WIFI particle was over 10 (above 1000°C).
  
 
{{Languages}}
 
{{Languages}}

Revision as of 13:53, 10 August 2020

WIFI.png WiFi
81745231.gif
Wireless transmitter, transfers spark to any other WIFI on the same temperature channel.
Properties
Section Electronics
Spawn temperature 22°C
Heat Conductivity 0%
Relative weight 100
Gravity 0
Acid dissolve rate 0.2%
Flammability 0
State Solid
Transitions
High pressure BRMT.png above 15 pressure
Source code


Usage

There are 101 channels available to WiFi. A WiFi particle's channel is determined by its temperature. The first channel ranges from 0°K to 73.15°K (-273.15°C to -200°C), and after that, each channel is 100° apart. For example, the next channel would be from 73.15°K to 173.15°K (-200°C to -100°C), and so on.

The easiest way to set the channel of WiFi is to use PROP. Simply change the WiFi's temperature to the channel multiplied by 100. For example, to get channel 47, you would set the temp to 4700. The actual channel is shown in the .tmp value in order to make it easier to see.

When a particle of WiFi is sparked by any material except NSCN, all WIFIs on that channel will output SPRK to any PSCN, NSCN and INWR that are touching the WIFI particle.

Reactions

WiFi does not conduct heat, but its temp (and thus channel) can be changed by PROT.

EMP will randomly change the temperature of WIFI when it is active.

When the pressure is above 15, WiFi will break into BRMT, which will immediately melt if the channel of the original WIFI particle was over 10 (above 1000°C).

Language: [[::Element:WIFI|English]]