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  • == Element Categories == {{MaterialBtn|LRBD}}
    11 KB (1,431 words) - 20:11, 15 April 2024
  • |42||LRBD||Liquid||37.85||687.85||2||45||170 | number || element name || state || Low temp. trans. point || High temp. trans. point || hardn
    10 KB (1,049 words) - 01:04, 7 December 2023
  • {{MaterialBtn|METL}} [[Element:METL|Metal]] {{MaterialBtn|SPRK}} [[Element:SPRK|Spark]]
    12 KB (1,555 words) - 10:12, 25 March 2023
  • ! Element Conductivity !! Element Name |170 || {{MaterialBtn|LRBD}}
    6 KB (658 words) - 15:21, 27 November 2023
  • ...or react when exposed to FIRE (except FIRE itself, C5 and CFLM), and each element has different properties that cause it to react differently. Pressure, high ...stances and heats up most elements. When FIRE is hot enough, it turns to [[Element:PLSM|PLSM]].
    8 KB (1,177 words) - 01:04, 4 July 2024
  • ^ Element ^ Leitfähigkeit ^ | LRBD | 170 |
    2 KB (197 words) - 19:47, 28 September 2011
  • Ta kategoria zawiera 18 elementów, z których wszystkie są wybuchowe (z wyjatkiem FIRE i CFLM). ...elektryczność, ogień, a nawet woda może wyzwolić energie niektórych elementów w tej kategorii.
    10 KB (1,687 words) - 05:41, 18 May 2017
  • === [[File:WATR.png|WATR]] [[Element:WATR|Water]] === WATR evaporates to [[Element:WTRV|WTRV]] at any T ≥ [+99.86 + 2P] ''C'' \ [373.01 + 2P] ''K'' .
    13 KB (1,906 words) - 21:21, 20 August 2023
  • {{ infobox Element === [[File:WATR.png|WATR]] [[Element:WATR|Water]] ===
    6 KB (639 words) - 19:10, 24 July 2024
  • Oto tabela przewodności cieplnej wszystkich elementów Powder Toya. ! Konduktywność !! Element
    3 KB (392 words) - 01:43, 27 March 2019
  • {{Languages|Element:SPRK}} {{ infobox Element
    4 KB (528 words) - 05:40, 10 November 2024
  • |+ {{ infobox Element '''Corrode:''' Acid corrodes ''soft'' materials. For example, [[Element:DMND | Diamond]] is considered a ''hard'' material due to its Hardness prop
    6 KB (821 words) - 11:29, 3 August 2024
  • === [[File:WATR.png|WATR]] [[Element:WATR|Woda]] === ...wioł: Ogień | FIRE]]. Zamarza w [[element: ICE | ICE]] i odparowuje do [[element: WTRV | pary]]. Te zmiany stanu wpływa ciśnieniem otoczenia.
    10 KB (1,515 words) - 21:48, 25 April 2019
  • ...взрыву (кроме самого Огня, [[Element:C-5|C-5]] и [[Element:CFLM|Холодного пламени]]). Каждый элемент им ...IRE|FIRE]]), Плазма ([[Element:PLSM|PLSM]]), и даже Вода ([[Element:WATR|WATR]]) могут стать триггерами для элемен
    14 KB (366 words) - 11:49, 4 January 2023
  • === [[File:WATR.png|WATR]] [[Element:WATR|Вода]] === ...ит электрический ток, замерзает и тушит [[Element:FIRE|Огонь]].
    20 KB (534 words) - 11:36, 15 May 2019
  • {{ infobox Element | hightemperaturetransition = LRBD
    1 KB (129 words) - 18:21, 2 September 2023
  • !Element ID!!Element Name!!State!!Low Temp!!High Temp!!Hardness!!Weight!!Heat Conductivity |42||LRBD||Liquid||37.85||687.85||2||45||170
    5 KB (572 words) - 10:47, 10 November 2019
  • ...ent is ideal for your engine or rocket? Have you ever wanted to know which element is more efficient: NITR or GUN? This article will present different fuels a ...al or nuclear energy as heat or to be used for work. In TPT, a fuel is any element that can generate energy (mostly heat), which can be used to power differen
    7 KB (1,157 words) - 04:54, 26 December 2022
  • {{MaterialBtn|LRBD}} [[File:LIFE-REPL.png|30px|link=Element:LIFE#Replicator]]
    12 KB (1,364 words) - 10:16, 27 March 2024
  • ! Element Conductivity !! Element Name |170 || LRBD
    3 KB (381 words) - 15:20, 11 April 2020

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