Difference between revisions of "Element:ACID"

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m (Corrected the Hardness header)
m (The HEAC save has nothing to do with ACID, HEAC is just one of many elements with a Hardness of 0 (the save doesn't belong here))
 
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<!-- TODO: add gif? Remember to remove this after added. -->
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{| style="float: right;"
{{ infobox Element
+
|+ {{ infobox Element
 
| icon = ACID.png
 
| icon = ACID.png
 
| longname = Acid
 
| longname = Acid
 
| image =  
 
| image =  
  
| advection = 0.60
+
| identifier = DEFAULT_PT_ACID
| airdrag = 0.010
+
| name = ACID
 +
| description = Dissolves almost everything.
 +
| colour = ED55FF
 +
| menusection = SC_LIQUID
 +
| menuvisible = 1
 +
| advection = 0.6
 +
| airdrag = 0.01
 
| airloss = 0.98
 
| airloss = 0.98
| collision = 0.00
+
| loss = 0.95
| colour = ED55FF
+
| collision = 0
| description = Dissolves almost everything.
+
| diffusion = 0
| diffusion = 0.00
 
 
| explosive = 0
 
| explosive = 0
 
| falldown = 2
 
| falldown = 2
 
| flammable = 40
 
| flammable = 40
| gravity = 0.10
+
| gravity = 0.1
| hardness = 1
+
| hardness = 0
 
| heatconduct = 34
 
| heatconduct = 34
| highpressure =  
+
| hotair = 0
| highpressuretransition =  
+
| meltable = 0
 +
| state = ST_LIQUID
 +
| temperature = 295.15
 +
| weight = 10
 +
| properties = TYPE_LIQUID PROP_DEADLY
 +
| lowtemperature =
 +
| lowtemperaturetransition =  
 
| hightemperature =  
 
| hightemperature =  
 
| hightemperaturetransition =  
 
| hightemperaturetransition =  
| hotair = 0.000000
 
| identifier = DEFAULT_PT_ACID
 
| loss = 0.95
 
 
| lowpressure =  
 
| lowpressure =  
 
| lowpressuretransition =  
 
| lowpressuretransition =  
| lowtemperature =  
+
| highpressure =  
| lowtemperaturetransition =  
+
| highpressuretransition =  
| meltable = 0
 
| name = ACID
 
| properties = TYPE_LIQUID | PROP_DEADLY
 
| state = ST_LIQUID
 
| temperature = 295.15
 
| weight = 10
 
 
}}
 
}}
 +
| colspan="2" align="right" |
 +
[[File:HAZMAT_Class_3_Flammable_Liquids.png|75px]]
 +
[[File:HAZMAT_Class_6-1_Poison.png|75px]]
 +
[[File:HAZMAT_Class_8_Corrosive.png|75px]]
 +
|}
  
 
== Creation ==
 
== Creation ==
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== Reactions ==
 
== Reactions ==
Acid corrodes ''soft'' materials. For example, [[ElementDMND:Diamond (DMND)|Diamond]] is considered a ''hard'' material due to it's Hardness property of 0 (zero) which makes it unbreakable.<br>
+
'''Corrode:''' Acid corrodes ''soft'' materials. For example, [[Element:DMND | Diamond]] is considered a ''hard'' material due to it's Hardness property of 0 (zero) which makes it unbreakable.<br>
Even though [[Element:GLAS|Glass (GLAS)]] is a ''soft'' material, ACID will not affect it. (Simulating laboratory conditions where acid can be stored in flasks)
+
Even though [[Element:GLAS|Glass (GLAS)]] is a ''soft'' material, ACID will not affect it. (Simulating laboratory conditions where acid can be stored in flasks)<br>
 +
When corroding a material, the temperature of the acid increases (depending on the hardness of the material), which may lead to self-combustion/melting of materials in contact with the ACID.
  
When corroding a material, the temperature of the acid increases (depending on the hardness of the material), which may lead to self-combustion/melting of materials in contact with the ACID.
+
'''[[Element:FIRE|Fire (FIRE)]]:''' ACID will create fire when in contact with certain explosives. (see listing below)<br>
 +
 
 +
'''[[Element:CAUS|Caustic Gas (CAUS)]]:''' ACID in contact with [[Element:WTRV|Water Vapor (WTRV)]] has a 0.4% chance to react into Caustic Gas with 25 to 75 Life. This reaction is not exothermic and if the acid particle is hotter than 22 °C then heat energy is lost in the process, this because the Caustic gas is formed at a temperature of 22 °C.
  
ACID will create fire when in contact with certain explosives. (see listing below)<br>
+
'''[[Element:ISOZ|Isotope Z (ISOZ)]]:''' ACID exposed to [[Element:NEUT|Neutrons (NEUT)]] will form the radioactive element Isotope Z.
It will also turn [[Element:WTRV|Water Vapor (WTRV)]] into [[Element:CAUS|Caustic Gas (CAUS)]]. (0.4% chance per frame)
 
  
 
== Hardness ==
 
== Hardness ==
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* Explosives (Will be converted to two particles of [[Element:FIRE|Fire (FIRE)]] with Life = 4)
 
* Explosives (Will be converted to two particles of [[Element:FIRE|Fire (FIRE)]] with Life = 4)
** [[Element:PLEX|C-4 / Plastic Explosive (C-4 / PLEX)]]
+
** [[Element:C-4|C-4 / Plastic Explosive (C-4 / PLEX)]]
 
** [[Element:NITR|Nitroglycerin (NITR)]]
 
** [[Element:NITR|Nitroglycerin (NITR)]]
** [[Element:GUNP|Gunpowder (GUNP)]]
+
** [[Element:GUN|Gunpowder (GUNP)]]
 
** [[Element:RBDM|Rubidium (RBDM)]]
 
** [[Element:RBDM|Rubidium (RBDM)]]
 
** [[Element:LRBD|Liquid Rubidium (LRBD)]]
 
** [[Element:LRBD|Liquid Rubidium (LRBD)]]
* [[Element:GLAS|Glass (GLAS)]] (Simulating laboratory conditions)
+
* [[Element:WTRV|Water Vapor (WTRV)]] (Eventually all Water Vapor would turn to Caustic Gas but it's a slow reaction)
 +
* [[Element:GLAS|Glass (GLAS)]] (Simulating laboratory conditions)*
 
* [[Element:ACID|Acid (ACID)]] and [[Element:CAUS|Caustic Gas (CAUS)]] (For obvious reasons)
 
* [[Element:ACID|Acid (ACID)]] and [[Element:CAUS|Caustic Gas (CAUS)]] (For obvious reasons)
 
* [[Element:CLNE|Clone (CLNE)]]
 
* [[Element:CLNE|Clone (CLNE)]]
 
* [[Element:PCLN|Powered Clone (PCLN)]]
 
* [[Element:PCLN|Powered Clone (PCLN)]]
 +
* [[Element:GOLD|Gold (GOLD)]]
 +
* [[Element:QRTZ|Quartz (QRTZ)]]*
  
 +
*Powder forms are also affected.
 
== Lifetime ==
 
== Lifetime ==
 
Each particle of Acid is created with a Life value of 75. For each reaction performed the Life value of the Acid particle is reduced by one. (simulating dilution)<br>
 
Each particle of Acid is created with a Life value of 75. For each reaction performed the Life value of the Acid particle is reduced by one. (simulating dilution)<br>
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== Dilution ==
 
== Dilution ==
 +
[[File:ACIDDiluted.png|frame|The Acid particle on the left is unaffected.<br>The Acid particle on the right has been diluted with 24 other particles, turning a darker color to reflect this.]]
 
Acid (as per the lifetime section above) will dilute the more particles get corroded by it.<br>
 
Acid (as per the lifetime section above) will dilute the more particles get corroded by it.<br>
 
This leads a ''cosmetic'' change of color, where the more diluted the Acid gets the darker it's color gets.
 
This leads a ''cosmetic'' change of color, where the more diluted the Acid gets the darker it's color gets.
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See the picture on the right for a comparison shot.
 
See the picture on the right for a comparison shot.
  
[[File:ACIDDiluted.png|frame|The Acid particle on the left is unaffected.<br>The Acid particle on the right has been diluted with 24 other particles, turning a darker color to reflect this.]]
 
  
 
{{Languages}}
 
{{Languages}}

Latest revision as of 02:58, 22 August 2017

ACID.png Acid
Properties
Section Liquids
Spawn temperature 22°C
Heat Conductivity 13.6%
Relative weight 10
Gravity 0.1
Acid dissolve rate 0%
Flammability 40
State Liquid
Misc properties
Harmful to STKM
Source code

HAZMAT Class 3 Flammable Liquids.png HAZMAT Class 6-1 Poison.png HAZMAT Class 8 Corrosive.png

Creation

Only by brush and clone.

Reactions

Corrode: Acid corrodes soft materials. For example, Diamond is considered a hard material due to it's Hardness property of 0 (zero) which makes it unbreakable.
Even though Glass (GLAS) is a soft material, ACID will not affect it. (Simulating laboratory conditions where acid can be stored in flasks)
When corroding a material, the temperature of the acid increases (depending on the hardness of the material), which may lead to self-combustion/melting of materials in contact with the ACID.

Fire (FIRE): ACID will create fire when in contact with certain explosives. (see listing below)

Caustic Gas (CAUS): ACID in contact with Water Vapor (WTRV) has a 0.4% chance to react into Caustic Gas with 25 to 75 Life. This reaction is not exothermic and if the acid particle is hotter than 22 °C then heat energy is lost in the process, this because the Caustic gas is formed at a temperature of 22 °C.

Isotope Z (ISOZ): ACID exposed to Neutrons (NEUT) will form the radioactive element Isotope Z.

Hardness

The Hardness value of a material defines whether ACID can corrode the material and if so, how fast the material will corrode. A value of 0 means it is unable to be corroded by ACID, the same applies to materials with a Hardness value greater than 1000.
A Hardness value between 1 and 1000 means it can be corroded, smaller values makes the reaction more likely and thus goes faster.
Hardness values between 1 and 60 makes the reaction exothermic, the temperature rise formula is as follows:


Temperature_Rise = (60-Hardness)*7


Example:

Drop a Water (WATR) particle on top of an ACID particle. Water has a Hardness value of 20, this causes the Acid to heat up by 60-20 = 40 * 7 = 280 degrees.
Though keep in mind that other particles touching the acid (also keeping in mind that corrosion is chance based) will transfer the heat away from the Acid. And when corroded, these particles temperatures will be lost to the void.

It is still advisable to gradually introduce whatever material you want to corrode or face runaway temperatures in your Acid bath.

Special cases

Acid treats certain materials differently... If not listed below, expect the material to be consumed by the Acid. (keeping the above mentioned hardness value in mind)
Here is a list of special case materials:

  • Powder forms are also affected.

Lifetime

Each particle of Acid is created with a Life value of 75. For each reaction performed the Life value of the Acid particle is reduced by one. (simulating dilution)
Once the life value reaches 50 or below the Acid particle will be consumed.

In effect, each particle of Acid will corrode 25 other particles before being consumed.

Acid shares life!

Acid particles who comes into contact with each other will trade life. (simulating diffusion)
This doesn't happen automatically every frame however, instead two random pixel in a box around the Acid particle are chosen per frame and if another Acid particle exists in those spots life will be shared among the two. (or possibly even three)

Dilution

The Acid particle on the left is unaffected.
The Acid particle on the right has been diluted with 24 other particles, turning a darker color to reflect this.

Acid (as per the lifetime section above) will dilute the more particles get corroded by it.
This leads a cosmetic change of color, where the more diluted the Acid gets the darker it's color gets.

See the picture on the right for a comparison shot.


Language: [[::Element:ACID|English]]