Difference between revisions of "Element:QRTZ"

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(Created Quartz)
 
(Add ROCK creation)
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{{Languages|Element:QRTZ}}
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{{ infobox Element
 
{{ infobox Element
 
| icon = QRTZ.png
 
| icon = QRTZ.png
 
| longname = Quartz
 
| longname = Quartz
| image = [[File:QuartzSticker.gif]]
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| image =  
  
| description = Quartz, breakable mineral. Conducts (both electricity and heat) but becomes brittle at lower temperatures
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| identifier = DEFAULT_PT_QRTZ
| explosive =  
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| name = QRTZ
| meltable =  
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| description = Quartz, breakable mineral. Conducts but becomes brittle at lower temperatures.
| flammable =  
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| colour = AADDDD
| gravity =  
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| menusection = SC_SOLIDS
| heatconduct =  
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| menuvisible = 1
| temperature =  
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| advection = 0
| weight =  
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| airdrag = 0
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| airloss = 0.9
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| loss = 0
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| collision = 0
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| diffusion = 0
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| explosive = 0
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| falldown = 0
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| flammable = 0
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| gravity = 0
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| hardness = 0
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| heatconduct = 3
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| hotair = 0
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| meltable = 0
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| state = ST_SOLID
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| temperature = 295.15
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| weight = 100
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| properties = TYPE_SOLID PROP_HOT_GLOW PROP_LIFE_DEC
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| lowtemperature =
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| lowtemperaturetransition =
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| hightemperature = 2573.15
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| hightemperaturetransition = LAVA
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| lowpressure =
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| lowpressuretransition =
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| highpressure =
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| highpressuretransition =  
 
}}
 
}}
  
 
==Creation==
 
==Creation==
No ways to create using reactions.  
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QRTZ can be created by molten {{Material|ROCK}}, with 1/12500 frequency, while under between 50 and 75 pressure.
  
 
== Reactions ==
 
== Reactions ==
Quartz can conduct heat, and is capable of conducting electricity, as long as the pressure of the quartz crosses the <14 threshold. {{Material|mat=PHOT}} can pass through, which may convert the inputted {{Material|mat=PHOT}} into the colour of the visible spectrum (excluding the different shades of the rainbow, and the colour black). When under immense pressure, Quartz may break into smaller particles as the form {{Material|mat=PQRT}}. Likewise, when it has been cooled to -273.15° Celsius, it will also break. Quartz conducts heat in a different manner to other particles. It conducts the inputted heat into different sections. Also, Quartz does not melt instantly when it's highest possible temperature has been reached.
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Quartz can conduct heat, and is capable of conducting electricity under certain conditions. QRTZ only conducts if it is colder than {{Temperature|t=173.15}}, or if the pressure around it is greater than 8. It can only receive SPRK from NSCN, METL, or PSCN.
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Photons ({{Material|PHOT}}) can pass through QRTZ, but are scattered in random directions. White photons will change into a random colour when they enter QRTZ. Most photons are deleted after a certain number of frames determined by their "Life" value, but this countdown is suspended while photons are in QRTZ.
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QRTZ conducts heat much more slowly than other particles. Because of the way heat conduction currently works, this means that heat conduction will occur in random bursts a few QRTZ particles at a time, and QRTZ will not melt instantly when its highest possible temperature has been reached.  
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QRTZ will grow after absorbing {{Material|mat=SLTW}}.
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QRTZ breaks into [[Element:PQRT|PQRT]] when the pressure changes too rapidly. Its resistance to changes in pressure scales with temperature - at {{Temperature|t=0}} it will be broken by any pressure change at all, even the slight breeze from a DUST particle falling nearby.  
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Molten  {{Material | CLST}} will turn into Molten {{Material | CRMC}} when mixed with Molten QRTZ.
  
 
=== Properties ===
 
=== Properties ===
QRTZ will melt into molten quartz at ----C/----K.
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The shade of QRTZ is controlled by its tmp2 value. The default generated values made by placing it are 0-10, With 0 being a fairly dark blue and 10 being nearly white.
  
 
== Uses ==
 
== Uses ==
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=== Examples ===
 
=== Examples ===
  
{{Languages}}
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{|border="1" cellpadding="5" cellspacing="0"
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|-
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| This save shows off how {{Material|mat=QRTZ}} can be made to conduct electricity using pressure.
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| {{ save | id=1298676 }}
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|-
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| This save shows off a type of art (which, I don't know what it's meant to be yet) which shows how {{Material|mat=QRTZ}} can be grown by its ctype or with {{Material|mat=SLTW}}.The same can be done if you introduce a high tmp using the [[Elements:Tools#Edit_Property_Tool|Edit Property Tool]]
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| {{ save | id=240608 }}
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|-
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| Image demonstrating Tmp2 values 0-10 in {{Material|mat=QRTZ}}  
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| [[File:QRTZGradient.jpg|QRTZGradient.jpg]]
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|-
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|}
  
 
[[Category:Elements]]
 
[[Category:Elements]]
 
[[Category:Solids]]
 
[[Category:Solids]]

Revision as of 03:12, 9 July 2021

Language: English


QRTZ.png Quartz
Properties
Section Solids
Spawn temperature 22°C
Heat Conductivity 1.2%
Relative weight 100
Gravity 0
Acid dissolve rate 0%
Flammability 0
State Solid
Transitions
High temperature LAVA.png above 2300°C
Misc properties
Source code


Creation

QRTZ can be created by molten ROCK, with 1/12500 frequency, while under between 50 and 75 pressure.

Reactions

Quartz can conduct heat, and is capable of conducting electricity under certain conditions. QRTZ only conducts if it is colder than -100°C, or if the pressure around it is greater than 8. It can only receive SPRK from NSCN, METL, or PSCN.

Photons (PHOT) can pass through QRTZ, but are scattered in random directions. White photons will change into a random colour when they enter QRTZ. Most photons are deleted after a certain number of frames determined by their "Life" value, but this countdown is suspended while photons are in QRTZ.

QRTZ conducts heat much more slowly than other particles. Because of the way heat conduction currently works, this means that heat conduction will occur in random bursts a few QRTZ particles at a time, and QRTZ will not melt instantly when its highest possible temperature has been reached.

QRTZ will grow after absorbing SLTW.

QRTZ breaks into PQRT when the pressure changes too rapidly. Its resistance to changes in pressure scales with temperature - at -273.15°C it will be broken by any pressure change at all, even the slight breeze from a DUST particle falling nearby.

Molten CLST will turn into Molten CRMC when mixed with Molten QRTZ.

Properties

The shade of QRTZ is controlled by its tmp2 value. The default generated values made by placing it are 0-10, With 0 being a fairly dark blue and 10 being nearly white.

Uses

Examples

This save shows off how QRTZ can be made to conduct electricity using pressure.
This save shows off a type of art (which, I don't know what it's meant to be yet) which shows how QRTZ can be grown by its ctype or with SLTW.The same can be done if you introduce a high tmp using the Edit Property Tool
Image demonstrating Tmp2 values 0-10 in QRTZ QRTZGradient.jpg