Difference between revisions of "Element:SPRK"
(Update infobox, copy some description from Elements:Electronics) |
MachineMan (talk | contribs) (→Resistance) |
||
(33 intermediate revisions by 14 users not shown) | |||
Line 1: | Line 1: | ||
+ | {{Languages|Element:SPRK}} | ||
+ | |||
{{ infobox Element | {{ infobox Element | ||
| icon = SPRK.png | | icon = SPRK.png | ||
Line 39: | Line 41: | ||
==Creation== | ==Creation== | ||
− | + | SPRK is created when: | |
+ | *{{MaterialBtn|BTRY}} is placed within 2 pixels of any conductor except {{MaterialBtn|INST}}, {{MaterialBtn|INWR}}, {{MaterialBtn|PTCT}}, or {{MaterialBtn|NTCT}}. | ||
+ | *{{MaterialBtn|ELEC}}, non-brown {{MaterialBtn|BRAY}}, {{MaterialBtn|LIGH}}, or {{MaterialBtn|THDR}} hits a conductor. | ||
+ | *{{MaterialBtn|PHOT}} hits a layer of {{MaterialBtn|PSCN}} with {{MaterialBtn|NSCN}} behind it. | ||
+ | *{{MaterialBtn|PSNS}}, {{MaterialBtn|TSNS}}, {{MaterialBtn|DTEC}}, {{MaterialBtn|VSNS}}, {{MaterialBtn|LDTC}}or {{MaterialBtn|LSNS}} are activated | ||
+ | *{{MaterialBtn|CLNE}} with ctype SPRK is next to a conductor | ||
+ | *{{MaterialBtn|VIBR}} or {{MaterialBtn|BVBR}} has a life between 1 and 300 | ||
+ | *{{MaterialBtn|DLAY}} with a life of 0 is next to {{MaterialBtn|NSCN}} | ||
+ | *{{MaterialBtn|PTNM}} is next to {{MaterialBtn|HYGN}} and {{MaterialBtn|OXYG}} | ||
+ | *{{MaterialBtn|CONV}} with ctype SPRK is next to a conductor | ||
− | + | == Reactions == | |
− | |||
Creates a current of electricity and is used to turn powered materials on or off. | Creates a current of electricity and is used to turn powered materials on or off. | ||
− | + | SPRK cannot be placed alone, you need to put it on a conductive material. SPRK can be blocked by {{MaterialBtn|INSL}} in most cases. As long as there is an INSL between the two conductors, it will not go through. Some special elements won't be activated through INSL either, although some will anyway (like {{MaterialBtn|PSTN}}). Some elements have special rules on which other conductors it can conduct to, see each element for help. | |
+ | |||
+ | == Conductivity == | ||
− | SPRK can | + | SPRK can travel through most conductors every 8 frames, with 4 frames of activity and then 4 frames of rest before a conductor will receive any more SPRK. SPRK travels twice as fast through {{MaterialBtn|GOLD}}, {{MaterialBtn|PTNM}}, or {{MaterialBtn|SLCN}} as it does through most other conductors and one quarter as fast in {{MaterialBtn|WATR}}. The travel time through {{MaterialBtn|INST}} is the same for any length. |
− | === | + | == Resistance == |
− | |||
− | + | SPRK produces heat when traveling through most conductors. {{MaterialBtn|TUNG}} produces the most heat this way, getting up to 3323.25°C. {{MaterialBtn|IRON}}, {{MaterialBtn|METL}}, {{MaterialBtn|BMTL}}, and {{MaterialBtn|BRMT}} reach 392°C; METL, BMTL, and BRMT will turn maroon when heated to this temperature. {{MaterialBtn|PSCN}} and {{MaterialBtn|NSCN}} jump to their current temperature+10C then go back to 22C; {{MaterialBtn|ETRD}} will do the same, unless it produces plasma. {{MaterialBtn|INWR}}, {{MaterialBtn|WATR}}, and {{MaterialBtn|SLTW}} heat to exactly 22°C if cooled below this temperature. | |
− | |||
− | {{ | + | {{MaterialBtn|INST}}, {{MaterialBtn|MERC}}, {{MaterialBtn|RBDM}}, {{MaterialBtn|LRBD}}, {{MaterialBtn|PTNM}}, {{MaterialBtn|GOLD}}, {{MaterialBtn|TTAN}}, {{MaterialBtn|SLCN}}, {{MaterialBtn|BREL}}, {{MaterialBtn|BUBW}}, and {{MaterialBtn|RSST}} (SPRK destroys RSST) do not heat up when conducting. |
− | + | Some conductors will actually cool down when heated above a threshold and sparked. {{MaterialBtn|INWR}}, {{MaterialBtn|WATR}}, and {{MaterialBtn|SLTW}} cool to exactly 22°C if heated above this temperature; {{MaterialBtn|TESC}} is strange in that it, in small amounts, it actually cools itself down to near absolute zero, but in large enough amounts can heat itself with {{MaterialBtn|LIGH}} to max temperature. | |
− |
Latest revision as of 05:40, 10 November 2024
Language: | English |
---|
Electricity. The basis of all electronics in TPT, travels along wires and other conductive elements. | |
Properties | |
---|---|
Section | Electronics |
Spawn temperature | 22°C |
Heat Conductivity | 100% |
Relative weight | 100 |
Gravity | 0 |
Acid dissolve rate | 0.1% |
Flammability | 0 |
State | Solid |
Misc properties | |
Source code |
Contents
Creation
SPRK is created when:
- is placed within 2 pixels of any conductor except , , , or .
- , non-brown , , or hits a conductor.
- hits a layer of with behind it.
- , , , , or are activated
- with ctype SPRK is next to a conductor
- or has a life between 1 and 300
- with a life of 0 is next to
- is next to and
- with ctype SPRK is next to a conductor
Reactions
Creates a current of electricity and is used to turn powered materials on or off.
SPRK cannot be placed alone, you need to put it on a conductive material. SPRK can be blocked by in most cases. As long as there is an INSL between the two conductors, it will not go through. Some special elements won't be activated through INSL either, although some will anyway (like ). Some elements have special rules on which other conductors it can conduct to, see each element for help.
Conductivity
SPRK can travel through most conductors every 8 frames, with 4 frames of activity and then 4 frames of rest before a conductor will receive any more SPRK. SPRK travels twice as fast through , , or as it does through most other conductors and one quarter as fast in . The travel time through is the same for any length.
Resistance
SPRK produces heat when traveling through most conductors. produces the most heat this way, getting up to 3323.25°C. , , , and reach 392°C; METL, BMTL, and BRMT will turn maroon when heated to this temperature. and jump to their current temperature+10C then go back to 22C; will do the same, unless it produces plasma. , , and heat to exactly 22°C if cooled below this temperature.
, , , , , , , , , , and (SPRK destroys RSST) do not heat up when conducting.
Some conductors will actually cool down when heated above a threshold and sparked. , , and cool to exactly 22°C if heated above this temperature; is strange in that it, in small amounts, it actually cools itself down to near absolute zero, but in large enough amounts can heat itself with to max temperature.