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Page title matches

• Heat
  ...s and the other may be a kettle with cold water, as shown in the picture. Heat flows spontaneously from the higher-temperature to the lower-temperature b ...has been molten. Only after all of the solid has been molten ''and'' the heat transport continues, the temperature of the colder body (then containing on
  9 KB (1,565 words) - 15:42, 16 March 2010
• Specific heat
  ...1 gram of water by 1 kelvin is 4.184 [[Joule (unit)|joule]]s. The specific heat capacity is usually expressed as Jg^-1K^-1. It may also ...math>, has the same numeric value whether based on ''specific heats'' or ''heat capacities'', since the respective amounts of substance cancel out.
  834 bytes (138 words) - 06:04, 15 April 2009
• Heat equation
  The '''heat equation''' is a [[partial differential equation]] of the form<br /> ...placian]]. When there is only one spatial dimension being considered, the heat equation takes the form<br />
  807 bytes (129 words) - 22:12, 3 September 2010
• Heat capacity
  ...kilogram of water has a greater heat capacity than 100 grams of water. The heat capacity is usually expressed as [[Joule|J]]K^-1. ...math>, has the same numeric value whether based on ''specific heats'' or ''heat capacities'', since the respective amounts of substance cancel out.
  786 bytes (126 words) - 06:05, 15 April 2009
• Miami Heat
  The '''Miami Heat''' are a [[National Basketball Association]] team based in [[Miami, Florida
  109 bytes (14 words) - 10:03, 22 August 2023
• Heat/Definition
  135 bytes (20 words) - 07:58, 13 June 2009
• Heat/Bibliography
  | title = Warmth Disperses and Time Passes: The History of Heat
  206 bytes (26 words) - 03:06, 14 December 2009
• Heat/Related Articles
  {{r|Conduction (heat)}} {{r|Convection (heat)}}
  811 bytes (105 words) - 15:22, 16 March 2010
• Condenser (heat transfer)
  81 bytes (10 words) - 16:31, 1 May 2010
• Heat capacity/Definition
  The measure of the heat energy required to increase the temperature of a unit quantity of a substan
  173 bytes (26 words) - 20:21, 3 September 2009
• Specific heat ratio
  ! colspan="7" align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Me ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiaba
  10 KB (1,459 words) - 16:10, 23 September 2013
• Heat of vaporization
  The '''heat of vaporization''', (<math>H_v</math> or <math>H_{vap}</math>) is the amoun It is also often referred to as the '''latent heat of vaporization''' (<math>LH_v</math> or <math>L_v</math>) and the '''entha
  12 KB (1,850 words) - 12:25, 30 April 2012
• Ocean heat content
  ...the tropics is transported toward the poles through ocean currents. Ocean heat content is measured in [[joules]] and is used by scientists to analyze and ==Importance of Ocean Heat Content==
  13 KB (1,869 words) - 22:22, 6 January 2011
• Heat equation/Definition
  A [[partial differential equation]] describing the way heat spreads over time.
  115 bytes (14 words) - 22:20, 3 September 2010
• Specific heat/Definition
  The ratio of the quantity of heat required to raise the temperature of a body one degree to that required to
  213 bytes (36 words) - 04:38, 29 April 2009
• Heat capacity ratio
  #Redirect[[Specific heat ratio]]
  32 bytes (4 words) - 17:44, 3 July 2008
• Urban heat island
  ...nvironmental Protection Agency]], [http://www.epa.gov/heatisland/index.htm Heat Island Effect]</ref> ...e/headlines/essd26apr99_1.htm Welcome to the Thunder Dome: Atlanta's Urban Heat Alters Weather Patterns], 1999</ref>
  3 KB (433 words) - 12:17, 1 February 2023
• Heat of Combustion
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:52, 23 September 2008
• Carnot heat engine
  27 bytes (3 words) - 05:33, 19 November 2009
• Miami Heat/Definition
  71 bytes (9 words) - 13:31, 2 September 2023
• Helium/Specific heat
  9 bytes (2 words) - 15:15, 12 June 2008
• Heat of combustion
  ...gen derived from atmospheric air to form [[carbon dioxide]], [[water]] and heat. It may be quantified with these units: ...ated as the difference between the [[Standard enthalpy change of formation|heat of formation]] (Δ_fH⁰) of the products and reactants.
  13 KB (1,833 words) - 05:42, 19 October 2013
• Water/Heat capacity
  35 bytes (7 words) - 16:58, 13 March 2009
• Heat/External Links
  *[http://genesismission.jpl.nasa.gov/educate/scimodule/heat/index.html JPL -Heat:An Agent of Change] ...a/mstm/physics/mechanics/energy/heatAndTemperature/heatAndTemperature.html Heat and Temperature]
  319 bytes (42 words) - 03:28, 14 December 2009
• Water/Heat of vaporization
  30 bytes (6 words) - 16:58, 13 March 2009
• Helium/Heat of vaporization
  28 bytes (4 words) - 16:25, 22 April 2011
• Condenser (heat transfer)/Definition
  ...nger]] in which a [[vapor]] is converted to a [[liquid]] by transferring [[heat]] from the vapor to a coolant.
  160 bytes (24 words) - 16:33, 1 May 2010
• Water/Heat of fusion
  36 bytes (7 words) - 16:59, 13 March 2009
• Lithium/Heat of fusion
  4 bytes (0 words) - 15:52, 12 June 2008
• Heat capacity/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Heat capacity]]. Needs checking by a human. {{r|Specific heat ratio}}
  559 bytes (74 words) - 12:49, 15 March 2024
• Heat of combustion/Bibliography
  724 bytes (107 words) - 23:32, 23 September 2008
• Lithium/Heat of vaporization
  5 bytes (0 words) - 15:53, 12 June 2008
• Specific heat ratio/Approval
  591 bytes (52 words) - 13:11, 16 April 2009
• Specific heat ratio/Definition
  ..., <math>C_v</math>, also sometimes called the ''adiabatic index'' or the ''heat capacity ratio'' or the ''isentropic expansion factor''.
  300 bytes (46 words) - 17:10, 3 July 2008
• Heat of vaporization/Definition
  132 bytes (18 words) - 20:20, 10 September 2009
• Ocean heat content/Definition
  The amount of heat stored in the oceans which is used by scientists to analyze and project cli
  142 bytes (22 words) - 00:28, 27 December 2008
• Silver/Heat of fusion
  28 bytes (4 words) - 16:20, 22 April 2011
• Specific heat ratio/Bibliography
  865 bytes (123 words) - 17:17, 3 July 2008
• Latent heat of vaporization
  #REDIRECT[[Heat of vaporization]]
  33 bytes (4 words) - 20:41, 10 September 2009
• Ocean heat content/Bibliography
  563 bytes (78 words) - 08:01, 31 December 2008
• Heat of vaporization/Bibliography
  565 bytes (81 words) - 22:10, 10 September 2009
• Miami Heat/External Links
  * [https://www.nba.com/heat Miami Heat] official NBA website
  74 bytes (11 words) - 10:04, 22 August 2023
• Urban heat island/Definition
  89 bytes (13 words) - 15:33, 26 January 2009
• Helium/Heat of fusion
  27 bytes (4 words) - 16:24, 22 April 2011
• Heat of combustion/Definition
  The energy released as heat when a substance undergoes complete combustion with oxygen.
  124 bytes (16 words) - 23:03, 23 September 2008
• Heat of combustion/Related Articles
  {{r|Heat}} {{r|Heat of formation}}
  231 bytes (27 words) - 23:26, 23 September 2008
• Heat of combustion/External Links
  971 bytes (148 words) - 23:47, 23 September 2008
• Specific heat ratio/Citable Version
  ! colspan="7" align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Me ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiaba
  10 KB (1,457 words) - 16:09, 23 September 2013
• Heat of vaporization/Related Articles
  344 bytes (40 words) - 19:53, 26 October 2009
• Ocean heat content/Related Articles
  1 KB (193 words) - 19:13, 4 January 2009
• Urban heat island/External Links
  .../2021/07/urban-heat-islands-pose-extreme-public-health-risk/183816/| Urban heat islands pose extreme public health risk] ...ronment%20absorb%20and%20hold%20heat| NASA Climate Kids : What is an urban heat island?]
  669 bytes (81 words) - 09:02, 17 July 2021
• Specific heat ratio/External Links
  *{{cite journal| author=Wayne C. Edmister|title=Specific Heat Ratios for Hydrocarbons |journal=Industrial Engineering Chemistry|volume=32
  275 bytes (37 words) - 15:04, 16 April 2009
• Specific heat ratio/Related Articles
  {{r|Heat capacity}} {{r|Specific heat}}
  348 bytes (41 words) - 11:23, 5 November 2009
• Urban heat island/Related Articles
  {{rpl|Ocean heat content}}
  159 bytes (18 words) - 13:38, 4 December 2022

Page text matches

• Heat/External Links
  *[http://genesismission.jpl.nasa.gov/educate/scimodule/heat/index.html JPL -Heat:An Agent of Change] ...a/mstm/physics/mechanics/energy/heatAndTemperature/heatAndTemperature.html Heat and Temperature]
  319 bytes (42 words) - 03:28, 14 December 2009
• Heat capacity
  ...kilogram of water has a greater heat capacity than 100 grams of water. The heat capacity is usually expressed as [[Joule|J]]K^-1. ...math>, has the same numeric value whether based on ''specific heats'' or ''heat capacities'', since the respective amounts of substance cancel out.
  786 bytes (126 words) - 06:05, 15 April 2009
• Thermal equilibrium/Definition
  The relation between two systems which are free to exchange [[heat]], but no heat is being exchanged.
  101 bytes (17 words) - 12:26, 18 January 2011
• Thermal equilibrium
  ...e relation between two systems which are free to exchange [[heat]], but no heat is being exchanged.
  150 bytes (21 words) - 16:59, 28 October 2014
• Specific heat
  ...1 gram of water by 1 kelvin is 4.184 [[Joule (unit)|joule]]s. The specific heat capacity is usually expressed as Jg^-1K^-1. It may also ...math>, has the same numeric value whether based on ''specific heats'' or ''heat capacities'', since the respective amounts of substance cancel out.
  834 bytes (138 words) - 06:04, 15 April 2009
• Joseph Black/Definition
  ...physicist and chemist, known for his discoveries of latent heat, specific heat, and carbon dioxide
  159 bytes (19 words) - 03:26, 21 May 2008
• Urban heat island/External Links
  .../2021/07/urban-heat-islands-pose-extreme-public-health-risk/183816/| Urban heat islands pose extreme public health risk] ...ronment%20absorb%20and%20hold%20heat| NASA Climate Kids : What is an urban heat island?]
  669 bytes (81 words) - 09:02, 17 July 2021
• Specific heat ratio/Definition
  ..., <math>C_v</math>, also sometimes called the ''adiabatic index'' or the ''heat capacity ratio'' or the ''isentropic expansion factor''.
  300 bytes (46 words) - 17:10, 3 July 2008
• Heat/Related Articles
  {{r|Conduction (heat)}} {{r|Convection (heat)}}
  811 bytes (105 words) - 15:22, 16 March 2010
• Heat equation
  The '''heat equation''' is a [[partial differential equation]] of the form<br /> ...placian]]. When there is only one spatial dimension being considered, the heat equation takes the form<br />
  807 bytes (129 words) - 22:12, 3 September 2010
• Joule/Definition
  ...a measure of the capacity to do [[Work (Physics)|work]] or generate [[Heat|heat]].
  177 bytes (27 words) - 18:12, 14 August 2009
• Condenser (heat transfer)/Definition
  ...nger]] in which a [[vapor]] is converted to a [[liquid]] by transferring [[heat]] from the vapor to a coolant.
  160 bytes (24 words) - 16:33, 1 May 2010
• Pickle/Definition
  ...as [[vinegar]] or [[citrus juice]], heat cooking, and possible subsequent heat sterilization; all the methods may be used for a specific preparation
  288 bytes (40 words) - 14:00, 11 February 2009
• Reboiler/Definition
  Typically a [[heat exchanger]] or a [[fired heater]] used to provide heat to the bottom of an industrial [[continuous distillation|distillation]] col
  237 bytes (32 words) - 12:19, 31 October 2009
• Combustion/Definition
  ...[[fuel]] and an oxidant accompanied by the production of [[heat]] or both heat and [[light]] in the form of either a glow or flames.
  227 bytes (36 words) - 18:03, 24 January 2023
• Condensation (phase transition)/External Links
  ...Phase Flows and Heat Transfer] From the website of the the [[Laboratory of Heat and Mass Transfer]] at the [[Ecole Polytechnique Fédérales en Suisse]] in
  309 bytes (45 words) - 18:42, 2 May 2010
• Fast breeder reactor/Definition
  ...to produce the ideal heat for power generation, but to produce reasonable heat but also a substantial amount of high-energy neutrons that will make ("bree
  320 bytes (47 words) - 03:49, 5 December 2011
• Condensation (phase transition)/Related Articles
  {{r|Condenser (heat transfer)}} {{r|Conduction (heat)}}
  1 KB (157 words) - 03:59, 24 September 2013
• Fossil fuel power plant/Definition
  ...m crude oil|petroleum]] [[fuel oil]], into [[electricity]]. The combustion heat energy may be used to generate [[steam]] for a [[steam turbine]] that drive
  518 bytes (75 words) - 13:08, 17 April 2010
• Calorie/Definition
  The unit of heat equal to the amount of heat required to raise the [[temperature]] of 1 [[kilogram]] of [[water]] by 1[[
  234 bytes (32 words) - 15:13, 14 August 2009
• Steam generator/Related Articles
  {{r|Combined power and heat}} {{r|Heat}}
  635 bytes (81 words) - 14:05, 20 December 2009
• Heat capacity/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Heat capacity]]. Needs checking by a human. {{r|Specific heat ratio}}
  559 bytes (74 words) - 12:49, 15 March 2024
• Clausius-Clapeyron relation/Related Articles
  {{r|Heat}} {{r|Heat of vaporization}}
  333 bytes (43 words) - 19:57, 26 October 2009
• Heating value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:53, 23 September 2008
• Latent heat of vaporization
  #REDIRECT[[Heat of vaporization]]
  33 bytes (4 words) - 20:41, 10 September 2009
• Higher heating value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:54, 23 September 2008
• Heat capacity ratio
  #Redirect[[Specific heat ratio]]
  32 bytes (4 words) - 17:44, 3 July 2008
• Enthalpy of vaporization
  #REDIRECT[[Heat of vaporization]]
  33 bytes (4 words) - 20:43, 10 September 2009
• Lower heating value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:56, 23 September 2008
• Adiabatic index
  #REDIRECT[[Specific heat ratio]]
  32 bytes (4 words) - 17:46, 3 July 2008
• Adiabatic exponent
  #redirect [[Specific heat ratio]]
  33 bytes (4 words) - 06:10, 15 April 2009
• Gross Heating Value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:58, 23 September 2008
• Isentropic expansion factor
  #Redirect[[Specific heat ratio]]
  32 bytes (4 words) - 17:48, 3 July 2008
• Isentropic exponent
  #redirect [[Specific heat ratio]]
  33 bytes (4 words) - 06:12, 15 April 2009
• Net heating value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:59, 23 September 2008
• Caloric value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 00:00, 24 September 2008
• Net Heating Value
  #REDIRECT[[Heat of combustion]]
  31 bytes (4 words) - 21:24, 30 April 2009
• Gross caloric value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 00:01, 24 September 2008
• Heat of Combustion
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 23:52, 23 September 2008
• Net caloric value
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 00:02, 24 September 2008
• Enthalpy of combustion
  #REDIRECTION[[Heat of combustion]]
  34 bytes (4 words) - 00:10, 24 September 2008
• Specific heat ratio/Related Articles
  {{r|Heat capacity}} {{r|Specific heat}}
  348 bytes (41 words) - 11:23, 5 November 2009
• Pressurized Water Reactor/Definition
  ...fission to heat water in a primary loop, then pipes the heated water to a heat exchanger to generate steam in a secondary loop, then uses the steam to dri
  289 bytes (46 words) - 10:29, 29 January 2023
• Miami Heat/External Links
  * [https://www.nba.com/heat Miami Heat] official NBA website
  74 bytes (11 words) - 10:04, 22 August 2023
• Adiabatic/Definition
  impermeable to heat; infinitesimally slow.
  78 bytes (8 words) - 05:27, 18 November 2009
• Heat of combustion/Related Articles
  {{r|Heat}} {{r|Heat of formation}}
  231 bytes (27 words) - 23:26, 23 September 2008
• Joseph Black/Related Articles
  {{r|Latent Heat}} {{r|Specific Heat}}
  383 bytes (50 words) - 09:51, 27 January 2009
• Silicon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Samarium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Xenon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Tin/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Zinc/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Copper/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Thorium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Niobium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Osmium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Hassium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Sulphur/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Europium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Caesium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Plutonium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Gallium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Indium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Protactinium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Molybdenum/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Platinum/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Bohrium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Chlorine/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Ytterbium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Barium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Lead/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Germanium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Technetium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Fermium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Ruthenium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Neptunium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Gold/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Seaborgium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Thulium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Francium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Astatine/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Arsenic/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Rhodium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Mendelevium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Uranium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Mercury (element)/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Dubnium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Erbium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Radium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Oxygen/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Selenium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Palladium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Lanthanum/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Rutherfordium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Carbon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Holmium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Nitrogen/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Bromine/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Silver/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Nobelium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Fluorine/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Cerium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Thallium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Titanium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Americium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Dysprosium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Aluminium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 08:32, 6 March 2024
• Krypton/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Hafnium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Lawrencium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Praseodymium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Radon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Vanadium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Curium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Terbium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Rubidium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Copernicium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Neodymium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Bismuth/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Sodium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Chromium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Berkelium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Gadolinium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Strontium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Tantalum/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Roentgenium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Beryllium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Polonium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Promethium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Tellurium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Iron/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Manganese/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Californium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Iodine/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Yttrium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Tungsten/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Darmstadtium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Neon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Lutetium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Antimony/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Nickel/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Argon/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Actinium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Potassium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:58, 6 March 2024
• Zirconium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Rhenium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Meitnerium/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  805 bytes (105 words) - 06:57, 6 March 2024
• Aeropyrum pernix/Definition
  A heat-requiring [[extremophile]] species of [[Archaea]].
  93 bytes (9 words) - 08:31, 18 October 2010
• Adiabatic
  ...fers to a process that takes place without absorption or generation of any heat. ...it occurs over a time interval short enough that no significant amount of heat is transferred into or out of the region of interest, regardless of the ins
  1 KB (167 words) - 20:26, 18 September 2021
• Cobalt(II) oxide/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  818 bytes (107 words) - 06:57, 6 March 2024
• Water/Properties/List
  ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  831 bytes (108 words) - 06:57, 6 March 2024
• Carnot engine/Definition
  virtual heat engine based on a Carnot cycle.
  80 bytes (11 words) - 11:54, 16 November 2009
• Freezing/Definition
  The removal of [[heat]] from a [[liquid]] until it [[crystalization|crystalizes]].
  118 bytes (14 words) - 14:11, 27 April 2010
• Thermodynamics/Related Articles
  {{r|Heat}} {{r|Specific heat ratio}}
  564 bytes (64 words) - 11:06, 5 November 2009
• Steam/Related Articles
  {{r|Combined power and heat}} {{r|Heat}}
  513 bytes (64 words) - 15:55, 26 November 2009
• Absolute zero/Definition
  The point at which no further heat can be removed from an object.
  101 bytes (16 words) - 02:32, 14 December 2009
• Exothermic reaction/Definition
  A chemical reaction that releases [[energy]] in the form of heat.
  101 bytes (14 words) - 16:50, 28 March 2009
• Heat equation/Definition
  A [[partial differential equation]] describing the way heat spreads over time.
  115 bytes (14 words) - 22:20, 3 September 2010
• Joule/Related Articles
  {{r|Heat capacity}} {{r|Heat of combustion}}
  915 bytes (131 words) - 17:46, 11 January 2010
• Stoves/Definition
  a device designed to use heat, for cooking, or home heating
  95 bytes (14 words) - 18:09, 12 March 2021
• Heat of combustion/Definition
  The energy released as heat when a substance undergoes complete combustion with oxygen.
  124 bytes (16 words) - 23:03, 23 September 2008
• Second law of thermodynamics/Related Articles
  {{r|Heat}} {{r|Specific heat ratio}}
  605 bytes (67 words) - 22:21, 6 November 2009
• Helium/Melting point
  ...expands on cooling, its conductivity for heat is enormous, and neither its heat conduction nor viscosity obeys normal rules.</noinclude>
  549 bytes (84 words) - 22:08, 14 April 2011
• Boiling point/Related Articles
  {{r|Heat of vaporization}} **[[Latent heat of vaporization]] (a redirect)
  476 bytes (56 words) - 19:41, 20 September 2010
• Autoclave/Definition
  A device that applies both heat and pressure to sterilize equipment, food or liquids.
  121 bytes (17 words) - 11:46, 31 May 2009
• Urban heat island
  ...nvironmental Protection Agency]], [http://www.epa.gov/heatisland/index.htm Heat Island Effect]</ref> ...e/headlines/essd26apr99_1.htm Welcome to the Thunder Dome: Atlanta's Urban Heat Alters Weather Patterns], 1999</ref>
  3 KB (433 words) - 12:17, 1 February 2023
• Kinetic fires/Definition
  ...systems that cause damage by physical forces such as impact, explosion or heat
  134 bytes (19 words) - 15:27, 25 December 2010
• Industrial cooling tower/Definition
  Heat rejection systems used primarily to provide circulating cooling water in la
  142 bytes (17 words) - 19:19, 12 May 2008
• Laws of thermodynamics/Related Articles
  {{r|Heat}} {{r|Specific heat ratio}}
  739 bytes (87 words) - 11:29, 5 November 2009
• Fossil fuel/Related Articles
  {{r|Heat}} {{r|Heat of combustion}}
  485 bytes (65 words) - 19:53, 17 April 2010
• Geothermal power plant/Definition
  An [[electrical power plant]] that extracts [[heat]] [[energy]] stored beneath [[Earth]]'s surface and uses it to generate [[e
  176 bytes (22 words) - 22:08, 16 April 2010
• Incendiary/Definition
  An agent in military ammunition, which generates heat and possibly flame, with the intention of destroying objects by fire
  158 bytes (22 words) - 22:40, 12 March 2011
• Miami Heat
  The '''Miami Heat''' are a [[National Basketball Association]] team based in [[Miami, Florida
  109 bytes (14 words) - 10:03, 22 August 2023
• Scandium/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  984 bytes (137 words) - 06:58, 6 March 2024
• Iridium/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  984 bytes (137 words) - 06:57, 6 March 2024
• Helium/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  984 bytes (137 words) - 06:57, 6 March 2024
• Carne gasada/Recipes/Carne gasada II
  |preparation=* Heat oil in a large saucepan over medium high heat and brown the beef. * Reduce heat, and simmer for 8 to 12 hours.
  900 bytes (119 words) - 14:51, 25 April 2008
• Laws of thermodynamics/Definition
  Laws which describe the specifics for the transport of heat and work in thermodynamic processes.
  133 bytes (18 words) - 20:43, 3 September 2009
• Cadmium/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  998 bytes (139 words) - 06:58, 6 March 2024
• Lithium/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  1,007 bytes (140 words) - 06:57, 6 March 2024
• Isentropic process
  ...f a thermodynamic system can change by two causes: (i) by transferral of [[heat]] in or out the system, and (ii) by a spontaneous (natural) process inside ...possible change of entropy does not occur. A process, taking place without heat entering or exiting, is called an ''adiabatic'' process. If a process is
  998 bytes (147 words) - 16:29, 16 January 2022
• Pressurized Water Reactor
  ...h the heat of fission affects water in a primary loop, which is piped to a heat exchanger that generates steam in a secondary loop that drives the turbine;
  536 bytes (84 words) - 14:04, 24 January 2023
• Very high temperature reactor/Definition
  ...lear reactor using [[helium]] gas as a coolant, that might provide process heat for production of zero-carbon [[hydrogen]] from [[water]].<ref>https://www.
  196 bytes (31 words) - 02:53, 7 April 2024
• Vulcanization/Definition
  A specific curing process of rubber involving high heat and the addition of sulfur or other equivalent curatives.
  150 bytes (21 words) - 03:47, 29 April 2009
• Shadehouse/Definition
  ...ucture or an outbuilding, designed to protect plants from too much sun and heat
  153 bytes (23 words) - 00:49, 22 May 2008
• Ocean heat content/Definition
  The amount of heat stored in the oceans which is used by scientists to analyze and project cli
  142 bytes (22 words) - 00:28, 27 December 2008
• Infrared countermeasures/Definition
  Equipment and flying techniques that can break the lock of a heat-seeking missile on a target aircraft.
  139 bytes (20 words) - 18:57, 4 July 2008
• Baking soda/Definition
  ...]; usage comes from its generation of [[carbon dioxide]] when subjected to heat or acid; generate gas leavens a baked product
  198 bytes (28 words) - 21:03, 10 October 2010
• Fire/Definition
  The rapid oxidation of a combustible material releasing heat, light, and various reaction products such as carbon dioxide and water.
  169 bytes (23 words) - 10:48, 3 September 2009
• Cooking/Definition
  The act of using heat to prepare food for eating. Cooking may also be said to occur by certain co
  156 bytes (24 words) - 15:46, 14 May 2008
• Stoves
  ...' were a device designed to burn some kind of [[fuel]] in order to produce heat. Stoves were often, but not always, designed to cook food, in addition to ...evices designed for industrial purposes, or as part of a system to deliver heat to multiple rooms.
  661 bytes (104 words) - 18:06, 12 March 2021
• Surface condenser/Definition
  A water-cooled shell and tube [[heat exchanger]] for [[Condensation (phase transition)|condensing]] the exhaust
  180 bytes (22 words) - 17:57, 1 May 2010
• Inductively coupled plasma
  ==Heat source==
  1 KB (164 words) - 11:38, 18 May 2010
• Cobalt/Properties/List
  ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Cr
  1 KB (148 words) - 06:57, 6 March 2024
• Wind/Definition
  The movement of air produced by a change in heat on the earth's surface.
  109 bytes (17 words) - 18:10, 7 February 2009
• High Temperature Gas-cooled Reactor
  ...ures which enables applications such as [[hydrogen production]] or process heat for the petrochemical industry or others. <ref>{{citation ...nology], two-day course by Hans Gougar at INL, 2019. Nice chart of Process Heat Applications.
  2 KB (319 words) - 16:20, 8 January 2023
• Heat/Bibliography
  | title = Warmth Disperses and Time Passes: The History of Heat
  206 bytes (26 words) - 03:06, 14 December 2009
• Caramelization/Definition
  Generally, a range of heat-based reactions that convert sugars to darker and more flavored substances;
  186 bytes (23 words) - 05:39, 4 March 2010
• Enthalpy/Related Articles
  {{r|Heat}} {{r|Specific heat ratio}}
  856 bytes (107 words) - 16:19, 11 January 2010
• Steam generator/Definition
  A device that uses a [[heat]] source to [[boiling point|boil]] liquid [[water]] and convert it into its
  188 bytes (28 words) - 15:42, 26 November 2009
• HNS/Definition
  Relatively shock-insensitive, very heat stable high explosive, used in [[slapper detonator]]s; 1,1'-(1,2-ethylenedi
  213 bytes (22 words) - 12:49, 27 April 2010
• High Temperature Gas-cooled Reactor/Definition
  ...hite-moderated, helium-cooled [[nuclear reactor|reactor]] that can provide heat for industrial processes, with electricity generation a secondary role
  232 bytes (25 words) - 09:57, 25 January 2023
• Coal/Definition
  a combustible, black rock formed after millions of years of heat and pressure were applied to the decayed remains of plants and organic matt
  204 bytes (32 words) - 17:51, 24 January 2023
• Solar power plant/Definition
  ...oltaics]] or by focusing [[solar radiation]] into a concentrated beam of [[heat]] that is used to generate [[steam]] for conversion into [[electric power]]
  305 bytes (39 words) - 22:12, 16 April 2010
• Thermal power plant/Definition
  ...ctric power plant]] in which all of the electricity is produced by using a heat source to generate steam that drives a steam turbine which rotates an elect
  215 bytes (33 words) - 12:34, 17 April 2010
• Specific heat ratio/External Links
  *{{cite journal| author=Wayne C. Edmister|title=Specific Heat Ratios for Hydrocarbons |journal=Industrial Engineering Chemistry|volume=32
  275 bytes (37 words) - 15:04, 16 April 2009
• Chemical thermodynamics/Definition
  The study of the interrelation of heat and work with chemical reactions or with physical changes of state within t
  193 bytes (29 words) - 04:08, 29 April 2009
• Teller-Ulam design/Definition
  ...ng of radiation pressure from a Primary [[fission device]] to compress and heat lithium deuteride, which produces [[tritium]], in a thermonuclear Secondary
  242 bytes (33 words) - 13:55, 6 May 2010
• Fast breeder reactor
  ...to produce the ideal heat for power generation, but to produce reasonable heat but also a substantial amount of high-energy neutrons that will make ("bree
  1 KB (149 words) - 13:01, 15 March 2024
• Geothermal energy/Definition
  Extracts [[energy]] from the [[heat]] stored beneath the [[Earth]]'s surface and uses it for space heating or f
  268 bytes (36 words) - 05:32, 17 September 2023
• Vitrification/Definition
  ...from any crystalline structure, either by the quick removal or addition of heat, or by mixing with an additive.
  229 bytes (36 words) - 21:29, 12 July 2008
• COGAS/Definition
  ...ntal method primarily driven by gas turbines, but that scavenges the waste heat from the gas turbines to drive a steam turbine
  226 bytes (33 words) - 12:17, 14 April 2010
• Soldering
  ...t has many applications, especially in electronics when the components are heat-sensitive. There are different ways to apply heat to the work. In all cases, the metal must be clean and shiny for soldering
  2 KB (373 words) - 05:53, 12 September 2013
• Viperinae/Definition
  ...ipers found in Europe, Asia and Africa, distinguished by their lack of the heat-sensing pit organs that characterize their sister group, the Crotalinae.
  262 bytes (37 words) - 09:21, 14 March 2009
• Thermite/Definition
  ...d metal and a powdered metal oxide, which, when ignited, generates extreme heat for military and civilian applications
  185 bytes (27 words) - 21:36, 11 March 2011
• Heat capacity/Definition
  The measure of the heat energy required to increase the temperature of a unit quantity of a substan
  173 bytes (26 words) - 20:21, 3 September 2009
• Carnot engine
  ...ine''' is a virtual engine—conceived of by [[Sadi Carnot]]—that converts [[heat]] into [[work]]. It is based on a thermodynamic [[Carnot cycle]], see that
  236 bytes (35 words) - 11:53, 16 November 2009
• Condenser (disambiguation)
  {{r|Condenser (heat transfer)}}
  169 bytes (19 words) - 18:18, 1 May 2010
• Vitrification/External Links
  ...laffairs.pnl.gov/seminars/speakers/sundaram.stm Vitrification: Putting the Heat on Waste]
  577 bytes (78 words) - 08:29, 21 September 2013
• Candle
  ...to provide light and, optionally, a fragrance. Candles produce very little heat but, historically, they provided a reliable means of timekeeping. A candlem
  298 bytes (48 words) - 03:00, 13 January 2024
• Flare (electronic warfare)
  ...inciple is that it will be a more attractive source of infrared light to a heat-seeking missile. Flares may have to evolve beyond being a simple heat source, when missiles, which previously homed on the brightest wide-spectru
  1 KB (169 words) - 10:44, 8 April 2024
• Sun
  ...verts to [[helium]] through a process of [[nuclear fusion]], providing the heat and light that allowed [[life]] to form here on our planet, [[Earth]]. The ...nth of sun's light and heat reaches Earth. The rest of the sun's light and heat is lost in space.
  3 KB (381 words) - 20:54, 21 July 2020
• Condensation (phase transition)
  ...ndensing vapor, the heat of vaporization is sometimes referred to as the ''heat of condensation''.</ref> ...ts and Leighton E. Sissom|title=Schaum's Outline of Theory and Problems of Heat Transfer|edition=2nd Edition|publisher=McGraw-Hill|year=1998|id=ISBN 0-07-0
  5 KB (768 words) - 16:11, 3 May 2010
• Mole (unit)/Related Articles
  {{r|Heat of combustion}} {{r|Specific heat}}
  1 KB (161 words) - 11:55, 31 December 2022
• Endothermic reaction
  ...'''endothermic reaction''' is one that absorbs [[energy]] in the form of [[heat]]. It is the opposite of an [[exothermic reaction]]. Expressed in a [[chemi
  264 bytes (35 words) - 22:03, 29 October 2020
• Atmospheric reentry/External Links
  * [http://www.buran-energia.com/bourane/bourane-consti-bouclier.php Buran's heat shield]
  620 bytes (78 words) - 15:40, 20 July 2008
• Unobtanium/Properties
  ==== Heat of fusion ==== <section begin=Heat of fusion />
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• Fossil fuel/Definition
  ...oleum]] with a high percentage of [[carbon]] that can be burned to produce heat or energy, whose extraction is destructive to the environment, whose burnin
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• Geophysics
  * {{r|Geothermometry}} (heat from internal processes, [[radioactivity]], heat flow, [[volcano]]logy, and hot springs)
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• Nuclear reactor coolant/Definition
  A fluid that flows through a [[nuclear reactor]] absorbing heat produced by [[nuclear reaction]]s inside, essentially [[nuclear fission cha
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• Exothermic reaction
  ...'''exothermic reaction''' is one that releases [[energy]] in the form of [[heat]]. It is the opposite of an [[endothermic reaction]]. Expressed in a [[chem ...As a result of this, the extra energy is released, usually in the form of heat.
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• Second law of thermodynamics/Definition
  ...ble of a thermodynamic system; when a system of temperature ''T'' absorbs heat ''DQ'' reversibly, then ''dS'' = ''DQ''/''T''; during an irreversible (spon
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• Frying/Definition
  A [[cooking]] technique that uses fats as a means of heat conduction and often adding taste; includes pan-frying, where a surface of
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• Joule-Thomson effect/Definition
  ...when it is allowed to expand freely at constant enthalpy (meaning that no heat is transferred to or from the gas, and no external work is extracted from t
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• Geothermal energy
  ...heat and electricity. The problem for other areas of the world is that the heat is buried too deep. Recent progress in drilling technology has revived hope
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• Boiling Water Reactor/Definition
  ...type of [[Nuclear power reconsidered|nuclear power]] reactor in which the heat of the reactor is applied directly to the water that becomes steam and spin
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• Fireplace
  ...e greater control over how much air was supplied to the fuel. Much of the heat from a traditional fireplace was wasted, as it was carried up the chimney. ...es behind glass doors, so the entertaining flame can be watched, with less heat being wasted up the chimney. Modern fireplaces can be purchased that use [
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• ADM-20 Quail/Definition
  ...as well as releasing [[chaff (electronic warfare)|chaff]] and generating a heat signature, to act as a [[deceptive decoy]]
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• Crotalinae/Definition
  ...taxon|family]] [[Viperidae]] known as "pitvipers" due to the presence of a heat-sensing pit organ located between the eye and the nostril on either side of
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• Tainted blood scandal (Japan)/Definition
  ...ection of up to 2,000 hameophilia patients with HIV, due to the use of non-heat-treated infected blood products in medicine.
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• Nuclear power plant/Definition
  ...generate [[electricity]]. Conventionally, nuclear power plants used the [[heat]] energy derived from [[nuclear fission]] to generate [[steam]], which in t
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• De Laval nozzle/Definition
  ...t to a supersonic  speed so as to maximize the amount of the hot inlet gas heat energy that is converted into exhaust gas kinetic energy.
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• Soldering/Definition
  ...[[Celsius (unit)|Celsius]], than the pieces to be joined and is melted by heat conducted through the work
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• Specific heat/Definition
  The ratio of the quantity of heat required to raise the temperature of a body one degree to that required to
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• Enchilada sauce
  ...dded in place of water, and a few ounces of tomato sauce will diminish the heat. Alternatively, a little salsa can be added to spice it up. * Heat shortening and flour.
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• Bothrops/Definition
  ...ds bothros and ops that mean "pit" and "eye" or "face"; an allusion to the heat-sensitive loreal pit organs. Members of this genus are responsible for more
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  difficult problem of heat conduction. The heat equation:
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• Reboiler
  ...'' is typically a [[heat exchanger]] or a [[fired heater]] used to provide heat to the bottom of an industrial [[continuous distillation|distillation]] col ...lumn separating a mixture of liquid components into two products using the heat provided by a kettle-type reboiler.
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• Carne gasada
  * Heat oil in a large saucepan over medium high heat and brown the beef. * Reduce heat, and simmer for 8 to 12 hours.
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• Heat
  ...s and the other may be a kettle with cold water, as shown in the picture. Heat flows spontaneously from the higher-temperature to the lower-temperature b ...has been molten. Only after all of the solid has been molten ''and'' the heat transport continues, the temperature of the colder body (then containing on
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• Infrared light
  ...iation is sometimes referred to as thermal radiation or even equated with "heat", but such associations are somewhat misleading. All solid and liquid objec ...use of infrared detectors in thermal imaging cameras. Moreover, radiative heat transfer therefore takes places primarily in the infrared for everyday obje
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• Wet suit
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• Perry's Chemical Engineers' Handbook
  ...tors]] and chemical [[reaction kinetics]]; transport and storage of fluid; heat transfer equipment; [[psychrometry]] and [[evaporative cooling]]; [[Continu
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• Bolognese sauce/Recipes
  ...tter in a large casserole and cook the vegetables and pancetta over medium heat for 2 or 3 minutes. Mince the garlic in the food processor, add to the veg ...s, the salt, and 1/4 teaspoon of the 1/2 teaspoon black pepper. Raise the heat to high and cook, stirring, until the meat has lost its red color.
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• Fuel
  ...advantages over purely natural fuels, in portability, safety, and maximum heat production. ...ion years ago. The first use of charcoal for purposes other than providing heat was around 30,000 BC when cavemen used it as a pigment for drawing on the w
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• Fernery
  ...climatic needs and cannot survive in adverse conditions. They are frost, heat, and light-sensitive, so In many countries ferneries are indoors or at leas
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• Kinematics
  ...he refrigerant. Given the [[power]] input to the compressor, the rate of [[heat transfer]] at the evaporator can be calculated.
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• Differential equation
  ...brated example is [[Joseph Fourier|Fourier]]'s theory of the conduction of heat in terms of sums of trigonometric functions, [[Fourier series]], which fin Another example of a PDE is the [[heat equation]] or diffusion equation,
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• Blacksmith
  Blacksmith's know that if they heat their work above its [[curie point]] they will erase any magnetic fields in Smith's also have ways to use the heat of their forge, and quenching baths, to manipulate the size of the crystal
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  *[http://www.moldmakingtechnology.com/articles/110002.html Steel Heat Treating]
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• Barbecue
  ...isused (according to purists) to describe food that is cooked over an open heat source, such as a "barbecued hamburger"; more accurately, this should be ca ...is usually faster and higher-heat than Western methods, but still rely on heat to force flavoring into food.
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• Leidenfrost effect
  ...ller. The effect occurs due to the smaller [[Heat conduction|conduction of heat]] through a [[Vapour|vapour]] than through liquid.
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  ...ive resistance of the material can produce a loss of energy in the form of heat.
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• Gram stain
  ...ria]]'', for example, tend to need the [[Ziehl-Neelsen]] stain, which uses heat and acid to drive a stain into dye-resistant cell walls. #Prepare a heat-fixed smear of the material containing the bacteria of interest
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• Mechanical engineering
  ...he utilisation of the basic laws of [[mathematics]], [[thermodynamics]], [[heat transfer]], [[fluid dynamics]], and [[system dynamics]] in order to create
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• Charcoal (fuel)
  ...eled mainly from flammable volatile elements of the wood driven off by the heat of earlier combustion. ...ion years ago. The first use of charcoal for purposes other than providing heat was around 30,000 BC when cavemen used it as a pigment for drawing on the w
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• Caramelization
  ==Heat effects==
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• Cold fusion/Bibliography
  * Beaudette, C.G., Excess Heat. Why Cold Fusion Research Prevailed. 2000, Oak Grove Press (Infinite Energy
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• Light Emitting Diode
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• Sustainable city
  ...], has fewer inputs (of energy, water, food etc) and fewer waste products (heat, air pollution, water pollution etc) than a less sustainable city. In this
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• Enthalpy
  ...tion (also known as thermodynamic potential) "enthalpy" used to be called "heat contents", which is why it is conventionally indicated by ''H''. The term " ...dit to Kamerling Onnes and proposes the letter ''H'', either standing for "Heat contents", or capital eta as in Hνθαλπος (Enthalpos), although the G
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• Accidental release source terms/Related Articles
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• Reflux (distillation)
  It is also used in laboratories to supply heat to [[reaction]]s over a long period of time. ...to generate the upflowing vapors inside the column. The reboiler may be a heat exchanger (as shown in the adjacent diagram) or a [[fired heater]].
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• Sedum
  ...r requirements; some are cold-hardy but do not tolerate heat, some require heat but do not tolerate cold. They are preferred to [[grass]] for green roofs,
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• Wood stoves
  | quote = Throughout history, woodstove technology has developed to heat homes, but not all of it has been equally clean and efficient. ...that’s been compressed and dried. You fill a hopper with pellets, set the heat level, and the stove automatically ignites. An electrically powered auger c
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• Erg (unit)
  An erg is an extremely small amount of energy. One erg would heat a 10-ounce (300 g) glass of water by only 0.1 ''billionths'' of a degree ce
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• Joule
  ...a measure of the capacity to do [[Work (Physics)|work]] or generate [[Heat|heat]]. One joule equals the work done (or energy expended) by a force of one [[ ...oule. The joule is also used to measure thermal energy. One [[calorie]] of heat is the equivalent of 4.186 J.
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• Pickle
  Some preservation techniques not using heat still require heat. The containers used for pickling must be clean. Certain fermented foods, s
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• Clausius-Clapeyron relation
  ...nd phase I is a vapor, then ''Q'' &equiv; ''H''_v is the molar [[heat of vaporization]] (also known as molar enthalpy of evaporation). Further, ' where ''Q'' is the amount of heat necessary to convert one mole of
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• Tarte flambée/Recipes
  ...the oil in a nonstick skillet. Add the onion and cook, stirring, over low heat for 5 minutes or until golden brown. Let cool. # Heat the remaining oil in the skillet and fry the bacon until lightly browned, s
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• Tartiflette/Recipes
  #Melt the butter in a large sauté pan, then cook the lardons over medium-high heat until crisp and golden brown. Remove with a slotted spoon and set aside, l #Cook the onions in the bacon fat over medium heat, stirring often, until wilted and slightly golden. Drain in a strainer, pre
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• Pepper (fruit)
  ...00,000 for [[habanero pepper]]s, one of the world's spiciest. The Scoville heat unit pure capsaicin is 16 million.<ref>{{Cite book
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• Gas balloon
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• Laws of thermodynamics
  ...liam Thomson (1849). "An Account of Carnot's Theory of the Motive Power of Heat - with Numerical Results Deduced from Regnault's Experiments on Steam." ''T ...s]], since such a machine would need to perform work without releasing any heat to the environment, and such perfect machines are impossible by this law.
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  ...rth, transfer of sensible heat from the ground and the release of [[latent heat of vaporization]] when water vapor condenses also are significant sources o
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• Solar power
  '''Solar power''' refers to energy harnessed from the sun and converted to heat or [[electricity]] for human use. # Solar panels heat water directly.
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• Ocean heat content
  ...the tropics is transported toward the poles through ocean currents. Ocean heat content is measured in [[joules]] and is used by scientists to analyze and ==Importance of Ocean Heat Content==
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• James Hutton
  ...the basis of a system of the earth, supplemented by Black's principles of heat and chemistry. ...of the land and mountains was balanced by other forces; subterranean heat heat disrupted and uplifted the sediments formed beneath the sea to form new lan
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• Ether (chemistry)
  ...to ring strain, [[hydrogen bromide]] (HBr) can be used, without additional heat, to cleave oxiranes such as trans-2,3-dimethyl oxirane. The acid-catalyzed
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• Autoclave
  ...tand the steam and other pressures generated inside. Small units may have heat applied from a direct flame (e.g., a home [[#pressure canner|pressure canne ...able weights tend to need constant observation and adjustment of the stove heat. There is also a fixed burst diaphragm which will rupture and release dang
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• Physical system
  ...e heat bath. The "supersystem" consisting of the original system and the heat bath is an isolated physical system.
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• Polenta
  Some cooks use a double boiler to heat gently; some who are less concerned with tradition will use a nonstick pot.
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• Heat of vaporization
  The '''heat of vaporization''', (<math>H_v</math> or <math>H_{vap}</math>) is the amoun It is also often referred to as the '''latent heat of vaporization''' (<math>LH_v</math> or <math>L_v</math>) and the '''entha
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• Fratricide (familial)
  ...y)|military usage of fratricide]] to denote the inadvertent killing in the heat of battle of one's own fellow soldiers and the coining of the term "ethnic
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• Cookware and bakeware
  ...ght not be able to go under a broiler because its handle cannot resist the heat there. ...hat transfer heat. For example, [[stainless steel]] is a poor conductor of heat, but has the advantage of not reacting with foods and being easy to clean.
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• Cold probe (NMR)
  ...mpressor, often supported by a secondary cooling devise to help remove the heat generated by the helium pump. The secondary cooling devise is generally a c
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• Specific heat ratio/Citable Version
  ! colspan="7" align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Me ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiaba
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• Specific heat ratio
  ! colspan="7" align="center" style="background:#cccccc;"| Specific heat ratio of various gases<ref>{{cite book|author=Frank M. White|title=Fluid Me ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiaba
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• Wind
  ...hange in heat on the [[Earth]]'s surface. As different parts of the Earth heat up, the air in those parts rises as the cooler parts cause air to sink. Th
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• Australian Open
  ...e]], [[Australia]], during Australian summer, and therefore has an extreme heat policy, wherein play is stopped when the temperature is deemed to have reac
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• Sawdust pellets
  ...that’s been compressed and dried. You fill a hopper with pellets, set the heat level, and the stove automatically ignites. An electrically powered auger c | quote = But if you can’t switch to an automated wood heat system, you can still reduce your greenhouse gas impact by using a conventi
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• Detonator
  ...may have to withstand the immense acceleration of being fired from a gun, heat and vibration in flight, and such things as impacting on the target. There
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• Carbon nanotube
  ...icity|electrical]] properties, and are extremely efficient conductors of [[heat]]. ...bility of applications in [[biotechnology]]. They can be used to dissipate heat from tiny computer chips. The strength and flexibility of carbon nanotubes
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• Calorie
  A unit of energy. Defined as the amount of heat needed to raise the temperature of 1 gram of water (at one [[Atmosphere (un
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• Bearnaise sauce/Recipes
  ...n bring the vinegar, wine, and water to a boil over high heat. Reduce the heat slightly and add the shallots, tarragon, thyme, bayleaf, salt, and pepper. ...ter]], either melt the butter in a small saucepan over the lowest possible heat without stirring or melt it carefully in a microwave oven on about one-thir
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• Insensitive high explosives
  ...criterion is that the crash of an aircraft still should not produce enough heat or shock to detonate unarmed weapons, especially the high explosive implosi ...s, for its explosive yield, greater resistance to accidental detonation to heat and shock than any other single explosive in production. It has been, howev
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• Reconnaissance satellite
  ...al MASINT Space-based Staring Infrared Sensors]], which scan the globe for heat sources characteristic of missile launchers, use [[satellite orbits|geosync
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• Second law of thermodynamics
  ...at pump]], [[air conditioner]], and [[refrigerator]] are devices that move heat from a cold to a warm place and, according to Clausius, they need mechanica ...stated that it is impossible to perform work by cooling down a ''single'' heat source.
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• Joseph Black
  ...st and physicist, known for the concepts of [[latent heat]] and [[specific heat]], and for the discovery of [[carbon dioxide]]. He was a founder of [[therm ''limestone + heat gives fixed air + quicklime''
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• Perpetual motion machine
  ...a refrigerator need work (usually done by an electric motor) to transport heat from a cold to a warm place. ...odynamics]], which in its common version says "Work is needed to transport heat up a temperature slope".
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• Natrium reactor
  ...''' The pool of molten sodium has enough heat capacity to absorb the decay heat if there is a total loss of power. Hot sodium will rise by convection and c
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• Heat of combustion
  ...gen derived from atmospheric air to form [[carbon dioxide]], [[water]] and heat. It may be quantified with these units: ...ated as the difference between the [[Standard enthalpy change of formation|heat of formation]] (Δ_fH⁰) of the products and reactants.
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• Energy storage
  ...storage, including the cost of ancillary equipment like power inverters or heat storage tanks. Other costs, like battery replacement can be included by ass ...and generate hydrogen directly from water using abundant high-temperature heat from a nuclear reactor. See Fig.X
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• Flame hardening
  '''Flame hardening''' is a means of performing localized [[heat treatment]] on certain steels in order to increase [[surface hardness]].
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• Very high temperature reactor
  ...nuclear reactor using helium gas as a coolant, that might provide process heat for production of zero-carbon hydrogen from water.<ref>https://www.gen-4.or
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• Surface condenser
  ...-0151-9}}</ref> These surface [[Condenser (heat transfer)|condensers]] are heat exchangers which convert steam from its [[Gas|gaseous]] to its [[liquid]] s ...et steam to a turbine and the enthalpy of the exhaust steam represents the heat which is converted to mechanical work. Therefore, the larger the enthalpy d
  8 KB (1,176 words) - 16:28, 10 February 2024
• Cooking utensils
  ...which food is placed for cooking operations involving the application of [[heat]]. There are a very wide range of such utensils, which vary with the intend
  1 KB (179 words) - 06:32, 31 May 2009
• Glycol dehydration
  ...from the top of the absorber and cools the incoming hot, dry glycol in a [[heat exchanger]] before exiting the dehydration unit as dry natural gas. ...t least 99% purity (i.e., containing less than 1% water). After exchanging heat with the wet glycol from the flash drum, the dry glycol is [[Pump|pumped]]
  8 KB (1,255 words) - 09:37, 6 March 2024
• Teledildonics
  ...omething like a bodysuit lined with tiny pressure receptors, thermometers, heat generators, and pressure actuators. It would be used with 3D virtual reali
  1 KB (189 words) - 14:36, 9 December 2011
• Pack (canine)
  ...mpts to mate with her, the male dog suitors of a ''bitch'' (female dog) in heat, will allow each other to mate with her. In a pack of feral dogs, male dogs
  5 KB (862 words) - 10:56, 12 November 2007
• Defense Support Program
  ...re an aging system of space-based infrared sensors that detect the intense heat of missile launches and nuclear explosions. They do not form images, but ar Originally intended to detect the intense heat of an ICBM launch, this system proved useful at a theater level in 1990-199
  3 KB (494 words) - 12:18, 22 March 2024
• Infrared countermeasures
  '''Infrared countermeasures''' are means for defending aircraft against "heat-seeking" missiles that use the difference between their target's thermal ra ...ure of a missile launch, or possible detecting a motion by exhaust heat or heat of the airframe versus the cooler background. The other problem is recogniz
  8 KB (1,281 words) - 07:02, 4 April 2024
• Carnot cycle
  ...illed with a substance (the "working medium") that can absorb and deliver heat. The cylinder is closed by an adiabatic piston that can move and deliver ...liver less work for a given amount of heat, when running between the same heat reservoirs as a Carnot engine.
  21 KB (3,684 words) - 10:27, 8 July 2019
• Process design
  ...rocess furnaces]] as well as the amount of heat exchanged by any process [[heat exchangers]] and [[Continuous distillation|distillation]] [[reboiler]]s.
  5 KB (706 words) - 15:57, 17 August 2011
• Hydrogen sulphide
  | '''[[Heat of fusion]]''' ||69.74 kJ/kg at −85.47 °C and 1 atm | '''[[Heat of vaporisation]]'''||517.87 kJ/kg at −60.35 °C and 1 atm
  6 KB (862 words) - 09:35, 6 March 2024
• Marble (stone)
  ...rock]] formed from [[limestone]] or [[dolomite]] that has been subject to heat, pressure, and water over long periods of time. It is often irregularly co
  2 KB (240 words) - 10:02, 8 May 2023
• Rivet (fastener)
  ...ftened, and then the second head is hammered, with precautions against the heat. In all cases, the first head must be restrained so hammering does not driv
  1 KB (228 words) - 16:58, 31 May 2009
• Joule-Thomson effect/Bibliography
  *{{cite book|author=Mark W. Zemansky and Richard H. Dittman| title=Heat and Thermodynamics: An Intermediate Textbook| publisher=McGraw-Hill|year=19
  1 KB (172 words) - 00:44, 12 March 2008
• Infrared sensing
  ...the infrared spectrum, passively received and amplified infrared-spectrum heat from the target. ...cation shows the launch proper, but the data reduction system compares the heat in successive views to determine the direction and speed of missile travel.
  8 KB (1,131 words) - 12:20, 22 March 2024
• Flash evaporation/Citable Version
  ...a ''throttling expansion''. The following equation, derived from a simple heat balance around the throttling valve or device, is used to predict how much |align=left|= &nbsp;'''liquid [[specific heat capacity|specific heat]] at upstream temperature and pressure, J/(kg &middot; °C)'''
  9 KB (1,381 words) - 08:26, 1 September 2013
• Combustion
  ...[[Oxidation|oxidant]] accompanied by the production of [[heat]] or both [[heat]] and [[light]] in the form of either a glow or [[flame]]s. The most common ...a large volume of gas is liberated in combustion besides the production of heat and light. The sudden evolution of large quantities of gas creates excessiv
  12 KB (1,825 words) - 17:36, 28 March 2021
• Control valve
  ...temperatures within process vessels or to control the heat transfer within heat exchangers and process heaters or furnaces.
  4 KB (557 words) - 07:50, 8 June 2009
• Fossil fuel
  ...percentage of [[carbon]] and [[hydrocarbon]]s and can be burned to produce heat or energy. Fossil fuels were formed by the decay of [[biomass]] and other
  2 KB (257 words) - 08:57, 4 June 2023
• Hank Crumpton
  | title = In From the Cold and Able to Take the Heat
  2 KB (215 words) - 07:30, 18 March 2024
• Cooking
  .... The term can also refer to food preparation methods that do not involve heat. ...earance is one of the great cultural arts, and can be achieved by applying heat by a variety of methods, and also by straight chemical reactions ([[ceviche
  13 KB (1,979 words) - 08:30, 24 September 2023
• Decontamination
  ...ns that are deadly to all known microbes, such as chemicals, radiation and heat. Sterilization is not done on humans because the agents that are deadly to ===Heat===
  8 KB (1,170 words) - 10:42, 8 April 2024
• Climate
  ...mperature than areas close to the [[ocean]]. Oceans have in fact a great [[heat capacity]], which mitigates the climate. ...of vegetation are often composed of materials that hold greater amounts of heat and will take longer to cool than a heavily vegetated area. Urbanised areas
  12 KB (1,812 words) - 03:20, 8 November 2013
• Naturopathy
  ...ystem of therapy, making use of physical forces such as air, light, water, heat, [[massage]], etc.<ref>National Library of Medicine, ''Medical Subject Head
  2 KB (210 words) - 00:43, 24 January 2011
• Unit Operations of Chemical Engineering
  * [[Heat transfer]]
  1 KB (192 words) - 17:20, 18 February 2010
• Light/Related Articles
  {{r|Heat of combustion}}
  2 KB (239 words) - 18:05, 11 January 2010
• Flash evaporation
  ...a ''throttling expansion''. The following equation, derived from a simple heat balance around the throttling valve or device, is used to predict how much |align=left|= &nbsp;'''liquid [[specific heat capacity|specific heat]] at upstream temperature and pressure, J/(kg &middot; °C)'''
  9 KB (1,404 words) - 02:16, 27 October 2013
• Hendrik Antoon Lorentz/Bibliography
  ...ry of electrons and its applications to the phenomena of light and radiant heat; a course of lectures delivered in Columbia University'', New York, in Marc ...ry of electrons and its applications to the phenomena of light and radiant heat''
  4 KB (579 words) - 04:44, 24 November 2008
• Phosphorus/MSDS
  ...mmable. Incompatible with strong oxidizing agents, strong bases. Light and heat sensitive.
  1 KB (202 words) - 12:45, 30 April 2010
• Nuclear reactor
  ...eaction]]s with a [[neutron]] flux. Reasons for reactors existing include heat generation for electrical generation, [[marine propulsion]], or heating ind ...y [[exothermic]], meaning each fission releases a relative large amount of heat per atom split. These nuclear fission reactions take place by a controlled
  10 KB (1,554 words) - 14:19, 24 January 2023
• Thermite
  ...der, and a metal oxide, most often ferric oxide. With a pure thermite, the heat is generated not by combustion, but by an oxidation|reduction-oxidation rea *Production of a slug of molten metal, which can transfer heat efficiently for burning, cutting or welding
  7 KB (1,047 words) - 11:35, 22 March 2024
• Butter/Recipes/Clarified
  ...stirred or moved in any way. When completely melted, carefully remove from heat. There will be thick white foam on top and a milky residue at the bottom of
  1 KB (226 words) - 00:19, 8 May 2008
• Cryogenics
  ...razor blades, brake rotors and even pantyhose. The theory was based on how heat-treating metal works (the temperatures are lowered to room temperature from ...00 °C. Special cryogenic [[chemical reactor]]s are used to remove reaction heat and provide a low temperature environment. The freezing of foods and biote
  7 KB (1,043 words) - 09:37, 6 March 2024
• Mercury (planet)
  ...posed to the Sun’s heat, with the result that the surface of a planet will heat and cool in alternating periods. However, while Mercury does in fact rotate
  4 KB (617 words) - 12:36, 9 January 2021
• NaK Coolant
  ...e continual heating to remain in a liquid state. NaK is used in many other heat transfer applications for similar reasons.
  2 KB (237 words) - 02:55, 30 March 2008
• Absolute zero
  '''Absolute zero''' is the point at which no further [[heat]] can be removed from an object. In classical terms, at zero temperature al
  2 KB (249 words) - 20:01, 18 September 2021
• Chemical reaction
  ...change in energy may be made to do useful work, or simply be dissipated as heat.<ref name= Moore> ...sengarten/> which often require the input of some type of energy such as [[heat]], [[light]] or [[electricity]]. Classically, chemical reactions are strict
  11 KB (1,592 words) - 09:15, 28 September 2013
• Deaerator
  ...the top of the domed section. Some designs may include a vent [[Condenser (heat transfer)|condenser]] to trap and recover any water [[Entrainment (engineer ...al insulation|insulation]] of the vessel is typically provided to minimize heat loss.
  6 KB (932 words) - 17:34, 1 May 2010
• Reproducibility
  ...ists Stanley Pons and Martin Fleischmann reported the production of excess heat that could only be explained by a nuclear process. The report was astoundin ...ed the ERAB panel members that their experiments were now producing excess heat, tritium and other effects, but the ERAB panel did not revise their conclus
  6 KB (900 words) - 17:01, 16 September 2008
• De Laval nozzle
  ...ic''.</ref> speed so as to maximize the amount of the hot inlet gas [[Heat|heat energy]] that is converted into exhaust gas [[kinetic energy]]. ...(science)|frictionless]], and [[adiabatic]] (i.e., there is little or no [[heat]] gained or lost).
  10 KB (1,535 words) - 13:11, 23 October 2021
• CMOS
  ...Ts. The result is power efficient circuits that reduce the requirement for heat removal from the system. Each device pair is able to create logic gates bas
  2 KB (290 words) - 18:06, 16 January 2011
• Classical mechanics/Bibliography
  ...=The Feynman Lectures on Physics, volume 1: Mainly mechanics radiation and heat | publisher=Addison-Wesley | year=1989 | id=ISBN 0-201-51003-0 |url=http://
  2 KB (286 words) - 15:49, 26 September 2011
• Steam
  ...'''. The amount of heat added between points 1 and 2 is called '''sensible heat'''. ...ount of [[heat]] required to completely vaporize the water is called the [[heat of vaporization]] and denoted as '''''H'''''_'''''v''''' or '''''
  17 KB (2,440 words) - 15:23, 8 April 2023
• Air preheater
  ...eam generator]]'s thermal efficiency by preheating the combustion air with heat recovered from the hot combustion [[flue gas]]es (see the adjacent diagram) ...heaters.<ref name=Liu>{{cite book|author=Sadik Kakaç and Hongtan Liu|title=Heat Exchangers: Selection, Rating and Thermal Design|edition=2nd Edition|publis
  16 KB (2,561 words) - 09:49, 28 July 2023
• Alkaline pasta/Citable Version
  ...on-free." The actual chemical formula for this is '''2 NaHCO₃ +heat → Na₂CO₃ + H₂0 + CO₂'''.</ref
  6 KB (926 words) - 13:27, 14 October 2018
• Alkaline pasta
  ...on-free." The actual chemical formula for this is '''2 NaHCO₃ +heat → Na₂CO₃ + H₂0 + CO₂'''.</ref
  6 KB (926 words) - 20:37, 30 September 2018
• Joule-Thomson effect
  ...rottle (engineering)|throttling]] device while kept insulated so that no [[heat]] is transferred to or from the [[fluid]], and no external [[Mechanical wor ...is always equal to zero for ideal gases. In other words, they will neither heat nor cool during an expansion through an insulated throttling device.
  7 KB (1,081 words) - 05:42, 4 September 2013
• Joule-Thomson effect/Citable Version
  ...rottle (engineering)|throttling]] device while kept insulated so that no [[heat]] is transferred to or from the [[fluid]], and no external [[Mechanical wor ...is always equal to zero for ideal gases. In other words, they will neither heat nor cool during an expansion through an insulated throttling device.
  7 KB (1,084 words) - 05:41, 4 September 2013
• Arcology
  ...uch as heat and wind, which in specific arcologies, Soleri proposes, would heat the remainder of the environment, thereby eliminating wasteful duplication ...face area of the arcology could dissipate it. Problems with venting waste heat could prevent arcologies from being built in hot climates, or could severel
  7 KB (1,084 words) - 09:57, 27 June 2023
• Street-Legal (album)
  #'Where Are You Tonight? (Journey Through Dark Heat)' (Bob Dylan) – 6:16
  2 KB (207 words) - 01:15, 18 May 2014
• Drought
  ...mate|climatic]] condition in which there is a period of moderate to high [[heat]] and not enough [[rainfall]] to sustain native [[plant]] and [[wildlife]].
  2 KB (304 words) - 17:40, 18 December 2007
• Murder
  ...as intentional, not necessarily premeditated, but also not committed in a "heat of passion". Second degree murder can also include a murder by means of da ...hich the individual did not have any prior intent to kill; such as in the "heat of passion". This circumstance must be one in which a rational person woul
  4 KB (717 words) - 09:45, 24 February 2024
• Expansion turbine
  .... The inlet gas to the demethanizer is first cooled to about −51 °C in a [[heat exchanger]] (referred to as a ''cold box'') which partially [[Condensation ...boil" the bottom of the demethanizer and the expansion turbine removes the heat required to provide reflux in the top of the demethanizer.
  16 KB (2,411 words) - 09:37, 6 March 2024
• Energy policy and global warming
  The major contributors to our total CO2 emissions include heat for buildings and industrial processes, fuels for transportation, and elect ...ly a third of our CO2 problem. A zero-carbon future should include process heat for industry and fuels for transportation.}}
  9 KB (1,503 words) - 15:56, 17 July 2023
• Process flow diagram
  ...any [[process furnace]]s and the amount of heat exchanged by any process [[heat exchangers]].
  7 KB (974 words) - 18:31, 5 January 2011
• Gnocchi alla Romana/Recipes
  ...ucepan, bring the milk, salt, nutmeg, and pepper to a low boil over medium heat. ...in the mixture. All this will probably take about 8 minutes. Remove from heat.
  4 KB (601 words) - 11:15, 11 July 2011
• Feedback
  ...the error the furnace produces more or less heat, regulating the combined heat input to the house so the temperature stays constant. In other words, the i ...ental input affecting the system; for example the grade of the road or the heat from the sun.
  11 KB (1,670 words) - 10:15, 21 August 2014
• Bioinformatics
  '''[[Heat Maps]]''' are used to visually display which variables, such as genes, prot [[Image:HeatMapDEV.jpg|center|frame|Heat Map showing [[Hierarchical Clustering]] results]]
  5 KB (706 words) - 04:37, 13 November 2009
• Internal energy
  ...he internal energy of the system changes by ''dU'' as a consequence of the heat flow, and it is postulated that ...s such that positive ''DQ'' is the heat absorbed by the system, i.e., the heat that the system receives from its surroundings. The symbol ''dU'' indicat
  16 KB (2,628 words) - 14:15, 12 December 2021
• Rhabdomyolysis
  ...so on), can cause rhabdomyolysis. Other causes include [[alcoholism]], [[heat stroke]], [[ischemia]] or [[necrosis]] of muscles due to [[arterial occlusi
  2 KB (271 words) - 05:02, 7 February 2010
• Catabolism
  ...s involving a release of chemical free energy, not all of which is lost as heat, but some of which is partially conserved through the coupled synthesis of
  2 KB (292 words) - 02:03, 2 June 2009
• Confit of duck
  ...n immersed in large quantities of duck fat and cooked very slowly over low heat for several hours. After cooling, the pieces of cooked duck are then placed
  2 KB (360 words) - 15:22, 16 March 2008
• Vitrification
  ...ny [[crystal]]line structure, either by the quick removal or addition of [[heat]], or by mixing with an additive. Solidification of a [[vitreous]] solid oc ...rally when [[lightning]] strikes [[sand]], where the extreme and immediate heat can create hollow, branching rootlike structures of glass, called [[fulguri
  6 KB (901 words) - 08:28, 21 September 2013
• Felix Krish/Catalogs
  *1991: ''Unusual Heat'' with Foreigner
  2 KB (244 words) - 02:05, 21 May 2009
• Electronic warfare expendables dispenser
  ...d countermeasures (e.g., [[flare (electronic warfare)| flares]] to confuse heat-seeking missile guidance. Recently, the range of expendables has expanded
  2 KB (264 words) - 10:44, 8 April 2024
• Rhubarb
  ...of the United States, although there are exceptions.... If it survives the heat it will not grow well will produce only thin leaf stalks which are spindly
  2 KB (306 words) - 19:03, 17 August 2010
• Flat Eric
  ...music video for “Flat Beat”. Flat graced the cover of the U.K. magazine ''Heat'' over the headline “How we fell for a two foot nylon thing” on 3 April
  2 KB (337 words) - 03:48, 24 December 2007
• Tributyl phosphate
  ...ulose esters, lacquers, chlorinated rubber, PVC, plastic and vinyl resins; heat exchange medium; solvent for [[nitrocellulose]] and cellulose acetate; pigm
  2 KB (298 words) - 13:01, 15 March 2024
• Boltzmann distribution
  ...is is achieved by requiring that the vessels are in mutual contact through heat-conducting walls. ...gas, the systems in the ensemble do not interact other than by exchanging heat.
  8 KB (1,247 words) - 12:22, 12 March 2011
• Aeropyrum pernix
  '''''Aeropyrum pernix''''' is a heat-requiring [[extremophile]] species of [[Archaea]], ([[procaryote]]s with a
  2 KB (252 words) - 07:20, 24 September 2007
• Adipose tissue
  ...a specialized form of which contains many mitochondria, is used to produce heat, and exists mainly in rodents and hibernating animals, as well as neonate h
  2 KB (328 words) - 16:43, 12 May 2012
• Temperature
  ...rty of a system that underlies the common notions of "[[heat|hot]]" and "[[heat conduction|cold]]", in which something that is hotter has the greater tempe ...o change the temperature by a certain amount, i.e. it will have a higher [[heat capacity]] than a monatomic gas.
  23 KB (3,670 words) - 05:52, 15 March 2024
• Alton Brown
  ...s Gear for Your Kitchen'', ''I'm Just Here for More Food: Food x Mixing + Heat = Baking'', ''Good Eats: The Middle Years'', and ''Good Eats: The Early Ye
  2 KB (323 words) - 22:35, 23 April 2014
• Viperinae
  ...nd in Europe, Asia and Africa. They are distinguished by their lack of the heat-sensing pit organs that characterize their sister group, the Crotalinae. Cu ...that strikes are not only guided by visual and chemical cues, but also by heat, with warmer targets being struck more frequently than colder ones.<ref nam
  7 KB (984 words) - 16:06, 14 March 2009
• Fourteenth Air Force/Related Articles
  ...and successor space-based staring infrared MASINT systems that detect the heat of a missile launch.
  2 KB (262 words) - 16:53, 30 August 2009
• H. H. Lewis
  ...10px 15px 10px 15px; display:table;">That "stove-devil," heat-blanched and heat-crazed, gaunt and flagrantly dirty, up against it for twelve hours daily, r
  5 KB (808 words) - 09:28, 6 July 2023
• Simeon Denis Poisson
  ...(1831) and ''Théorie mathematiques de la chaleur (Mathematical theory of heat) (1835).
  2 KB (317 words) - 11:12, 5 October 2009
• Gas
  ...to increasingly higher [[temperature]]s. Thus, as energy in the form of [[heat]] is added, a solid (e.g., ice) will first melt to become a liquid (e.g., w ...We also connote the heat required to change a liquid into a gas as the ''[[heat of vaporization]]''.
  8 KB (1,191 words) - 19:28, 22 January 2011
• Fire
  ...en the apex of the inner dark core and the tip due to convection(rising of heat) and airflow of oxygen.}} ...ample). In this reaction the energy produced is released in the form of [[heat]]. The typical events in the creation of fire are as follows:
  12 KB (1,862 words) - 22:03, 12 March 2021
• Warhead
  The effect is most commonly explosive blast, but could be intense heat (i.e., incendiary, blast and small pieces of fast-moving metal (e.g., blast
  2 KB (361 words) - 16:23, 30 March 2024
• Industrial cooling tower
  ...n the industrial facilities. The cooling towers then reject that absorbed heat by transferring it to the [[atmosphere]]. ...the warm water to evaporate and the air absorbs that evaporated water. The heat required to evaporate part of the water is derived from the water itself a
  19 KB (3,006 words) - 17:53, 3 February 2018
• Industrial cooling tower/Citable Version
  ...n the industrial facilities. The cooling towers then reject that absorbed heat by transferring it to the [[atmosphere]]. ...the warm water to evaporate and the air absorbs that evaporated water. The heat required to evaporate part of the water is derived from the water itself a
  19 KB (3,006 words) - 11:11, 21 February 2018
• Traditional Chinese medicine
  ...ure]]), or the application of heat (e.g., [[moxabustion]]). The source of heat is usually a vegetable product and may have additional properties in herbal
  6 KB (857 words) - 14:43, 13 June 2010
• Accidental release source terms/Citable Version
  where <math>k</math> is the [[specific heat ratio]] of the discharged gas (sometimes called the [[isentropic expansion |align=left|= <math>c_p/c_v</math> = specific heat ratio of the gas
  19 KB (3,081 words) - 13:47, 12 August 2013
• Accidental release source terms
  where <math>k</math> is the [[specific heat ratio]] of the discharged gas (sometimes called the [[isentropic expansion |align=left|= <math>c_p/c_v</math> = specific heat ratio of the gas
  19 KB (3,099 words) - 10:42, 8 April 2024
• Hachis Parmentier
  ...d meat is covered by a "creamy purée of potatoes, slightly coloured by the heat of the oven". It was a "commonplace" and "homely" dish of the ''[[cuisine b
  2 KB (370 words) - 12:45, 21 November 2019
• Electrophoresis
  ==Generation of Heat in Electrophoresis Instrumentation== ...the heat. For instance, [[capillary electrophoresis]] efficiently removes heat because of its high surface-area to volume ratio. Similar to native electro
  15 KB (2,229 words) - 15:31, 16 December 2010
• Atmospheric lapse rate
  ...which is an unfortunate choice since gamma is also used for the [[specific heat ratio]]. ...e, under the assumption that the process is [[adiabatic]] (meaning that no heat is added or lost during the process).<ref name=EPA>[http://yosemite.epa.gov
  20 KB (3,065 words) - 11:44, 2 February 2023
• Vapor-compression refrigeration
  ...sferring it elsewhere. In more technical terms, it may be defined as a ''[[heat pump]]''. ...the circulating refrigerant rejects heat from the system and the rejected heat is carried away by either the water or the air (whichever may be the case).
  18 KB (2,699 words) - 10:31, 28 June 2023
• Claus process
  ...ted from the remaining unreacted gas in the outlet end of the [[Condenser (heat transfer)|condenser]] and sent to product storage. *Gas-to-gas heat exchangers in which cooled gas from a condenser exhanges heat with the hot gas from the upstream reactor.
  13 KB (1,990 words) - 09:37, 6 March 2024
• Sadiron
  ...proved sad-iron" which was designed not only to more evenly distribute the heat and stay hot longer, but had a detachable wooden handle. Prior to this, the
  2 KB (389 words) - 12:40, 23 July 2011
• Fluid dynamics
  ...nger.jpg|right|275px|Liquid flow across the tubes in a nuclear power plant heat exchanger.}}
  6 KB (916 words) - 17:02, 22 March 2024
• Liquid extraction
  ...n order to reduce heat costs. If the solvent must be volatized, its latent heat of vaporization should be small.
  6 KB (940 words) - 07:01, 18 November 2011
• Florida (U.S. state)/Related Articles
  {{rpl|Miami Heat}}
  3 KB (359 words) - 10:27, 6 December 2023
• Vapor pressure/Citable Version
  ...ion to the [[heat of vaporization]] to vaporize a solid. Assuming that the heat of fusion is temperature-independent and ignoring additional transition tem |align=left|= Heat of fusion
  14 KB (2,121 words) - 09:40, 29 June 2023
• Fire extinguisher
  #Heat ...ltiple sides of the fire polygon. Type A water extinguishers both cool the heat level and cut off oxygen. Type ABC extinguishers, using dry powder, primar
  6 KB (920 words) - 10:42, 8 April 2024
• McCabe-Thiele method
  ...at effects such as [[Enthalpy change of solution|heats of solution]] and [[heat transfer]] to and from the [[Continuous distillation|distillation column]]
  6 KB (955 words) - 22:50, 17 February 2010
• Pancake
  ...ften it is served with a piece of fried dough folded around it to keep the heat and grease away from the customer's fingers. The supply of batter is replen
  2 KB (388 words) - 10:09, 28 February 2024
• Pentium microprocessor
  ...unctions at a lower voltage to keep down the overall power consumption and heat generation. The last model in this series, introduced in 1996, consumed 15
  2 KB (375 words) - 12:09, 6 March 2024
• World War II, air war, Russian front
  ...up shop in makeshift quarters in the Urals. Often the new quarters lacked heat and the workers froze in place. A complete dispersal outside the major citi
  3 KB (385 words) - 09:16, 10 October 2009
• Acid-Base homeostasis
  ...dy fluids &mdash; they jiggle and swirl vigorously, driven by the thermal (heat) energy of the body fluids. Accordingly, they frequently encounter a macro
  2 KB (346 words) - 12:36, 11 January 2010
• Fourteenth Air Force
  ...nfrared MASINT|space-based staring infrared MASINT systems that detect the heat of a missile launch.
  2 KB (350 words) - 01:54, 27 March 2024
• Saul Kripke
  ...lained that there are a class of necessary ''a posteriori'' propositions: "Heat is mean molecular motion", for instance, which is necessarily true, but not
  3 KB (386 words) - 20:50, 17 February 2010
• NuScale small modular reactor
  building that serves as the ultimate heat sink for core cooling.
  3 KB (382 words) - 11:52, 19 April 2023
• Choked flow
  where <math>k</math> is the [[specific heat ratio]] of the discharged gas (sometimes called the [[isentropic expansion |align=left|= <math>c_p/c_v</math> = [[specific heat ratio]] of the gas
  12 KB (1,845 words) - 16:31, 10 February 2024
• Boiling point
  The [[heat of vaporization]] is the amount of [[heat]] required to convert or vaporize a saturated liquid (i.e., a liquid at it If the heat of vaporization and the vapor pressure of a liquid at a certain temperature
  15 KB (2,372 words) - 00:31, 28 October 2013
• Thermodynamics
  {{Image|Carnot heat engine.png|right|220px|Carnot heat engine.}} '''Thermodynamics''' (from the [[Greek language|Greek]] θερμό-, [[heat|hot]], and δύναμη, [[Power (physics)|motive power]]) is a branch of
  21 KB (3,073 words) - 20:08, 1 September 2020
• Inuit
  ...have traditionally relied on fish, sea mammals, and land animals for food, heat, light, clothing, tools, and shelter. The Inuit language, [[Inuktitut]], is
  3 KB (434 words) - 10:12, 1 February 2023
• Reuben sandwich/Recipes
  #Melt the butter over medium heat in a skillet or frying pan.
  2 KB (371 words) - 13:08, 8 July 2011
• All-in-One PC
  ...in an AIO's case, they often cannot accommodate hotter processors or other heat-intensive components, such as high-end graphics cards. Additionally, they t
  3 KB (383 words) - 11:35, 24 September 2007
• Boiling point/Citable Version
  The [[heat of vaporization]] is the amount of [[heat]] required to convert or vaporize a saturated liquid (i.e., a liquid at it If the heat of vaporization and the vapor pressure of a liquid at a certain temperature
  15 KB (2,373 words) - 19:13, 5 August 2018
• Baking Powder
  ...s an initial rise during the mixing process followed by a second rise when heat is applied. <ref name="How Products Are Made Volume 6: Baking Powder">{{ci
  3 KB (515 words) - 06:11, 12 September 2013
• Vacuum distillation/Citable Version
  Heat is often applied to the rotating distillation flask by partially immersing ...body of the distillation setup being removed from either the vacuum or the heat source, and thus can remain in a state of [[Reflux (distillation)|reflux]].
  11 KB (1,703 words) - 16:10, 10 February 2024
• Vacuum distillation
  Heat is often applied to the rotating distillation flask by partially immersing ...body of the distillation setup being removed from either the vacuum or the heat source, and thus can remain in a state of [[Reflux (distillation)|reflux]].
  11 KB (1,670 words) - 16:11, 10 February 2024
• Telepresence
  ...chers are exploring safe ways to stimulate nerves to provide sensations of heat, the tickle reflex, or moisture.
  6 KB (930 words) - 22:38, 26 May 2008
• Petroleum refining processes
  ...e oil distillation unit. The incoming crude oil is preheated by exchanging heat with some of the hot, distilled fractions and other streams. It is then des ...ude oil desalter|desalter]], the crude oil is further heated by exchanging heat with some of the hot, distilled fractions and other streams. It is then hea
  14 KB (2,061 words) - 09:37, 6 March 2024
• Bessel functions
  ...'s laws|Equation of Elliptical Motion]], the vibrations of a membrane, and heat conduction, to name a few.
  3 KB (459 words) - 07:58, 13 July 2012
• Count Rumford
  ...ible amount of heat, which challenged the [[caloric theory]] that regarded heat as a substance. ...s that established the [[thermodynamics|thermodynamic]] connection between heat and work. However, Rumford had made a proposal to increase the size of Bava
  22 KB (3,530 words) - 12:07, 10 November 2009
• Chemical glassware
  Most laboratory glassware is constructed of heat and chemical resistant Pyrex glass so that it can be used for a variety of
  3 KB (492 words) - 11:09, 3 September 2009
• Drill (tool)
  ...to be cooled, usually by fluid, to avoid melting the work or damaging the heat treatment of the cutter.
  3 KB (470 words) - 11:31, 4 June 2009
• Petroleum refining processes/Citable Version
  ...e oil distillation unit. The incoming crude oil is preheated by exchanging heat with some of the hot, distilled fractions and other streams. It is then des Following the desalter, the crude oil is further heated by exchanging heat with some of the hot, distilled fractions and other streams. It is then hea
  13 KB (1,952 words) - 09:37, 6 March 2024
• Steam generator
  ...nd convert it into its [[Gas|vapor]] phase, referred to as [[steam]]. The heat may be derived from the [[combustion]] of a [[fuel]] such as [[coal]], [[Pe ...nd at rates ranging up to about 25,000 kg/hour.<ref>For example, the waste heat boiler in the [[Claus process|Claus sulfur recovery plants]] used in [[Petr
  31 KB (4,959 words) - 15:20, 8 April 2023
• Steam generator/Citable Version
  ...nd convert it into its [[Gas|vapor]] phase, referred to as [[steam]]. The heat may be derived from the [[combustion]] of a [[fuel]] such as [[coal]], [[Pe ...nd at rates ranging up to about 25,000 kg/hour.<ref>For example, the waste heat boiler in the [[Claus process|Claus sulfur recovery plants]] used in [[Petr
  31 KB (4,959 words) - 15:21, 8 April 2023
• Cheese
  ...ained the coagulating [[enzyme]] [[rennin]]. The rennin, coupled with the heat and the motion of the horse, caused the curds to separate from the [[whey]] ...t have been ground (comminuted). Unlike processed cheese, Cold Pack is not heat-treated nor cooked at the time of packaging."
  7 KB (1,154 words) - 06:32, 8 June 2009
• Nitrogen/Related Articles
  {{r|Specific heat ratio}}
  3 KB (457 words) - 12:49, 15 March 2024
• Fuse (electrical)
  ...device. In a circuit breaker, the overcurrent still causes a conductor to heat, but, rather than melting or exploding, it flexes and breaks the electrical
  3 KB (492 words) - 13:07, 3 February 2010
• John Playfair
  ...ton's case was his argument that [[granite]] was a rock formed under great heat and pressure which in places had been forced upwards to displace overlying ...n that the strata incumbent on it; as a substance which has been melted by heat, and which, when forced up from the mineral regions, has elevated the strat
  7 KB (1,158 words) - 14:39, 17 February 2011
• ThorCon nuclear reactor
  {{Image|ThorCon power train.png|right|350px|ThorCon power train. An extra heat exchange loop ensures no leakage of radiation. Overall efficiency is still ...reactor into drain tanks, where the fission reaction stops, and the decay heat is absorbed by a "cold wall".<ref>The wall is kept "cold" by water that is
  16 KB (2,447 words) - 17:25, 22 April 2024
• Disseminated intravascular coagulation
  **Heat Stroke
  3 KB (393 words) - 14:20, 8 March 2024
• Transport Phenomena
  ...ersity of Wisconsin-Madison to integrate the teaching of [[fluid flow]], [[heat transfer]], and [[diffusion]]. From this beginning, they prepared their lan
  3 KB (472 words) - 17:19, 18 February 2010
• Symbiodinium microadriaticum/Bibliography
  ...g/cgi/content/abstract/49/4/641 Bouchard, Josée Nina, and Hideo Yamasaki. "Heat Stress Stimulates Nitric Oxide Production in Symbiodinium microadriaticum:
  4 KB (454 words) - 05:35, 12 December 2011
• Ecological footprint
  ...or thoughts) of an [[organism]]. One side product of such conversions is [[heat]], others typically include [[water]], [[salt]]s, [[organic compound]]s, an
  3 KB (471 words) - 23:26, 7 February 2009
• Physical therapy
  ...decisions about the source/method and places of application. For example, heat can come from [[hydrotherapy]], [[ultrasonic therapy]] or [[diathermy]].
  7 KB (1,018 words) - 15:10, 13 June 2010
• Light bulb
  ...ncy, without sacrificing bulb lifetime. A primary disadvantage is that the heat produced by a halogen bulb is much greater than that of an incandescent and *Gas discharge lamps heat a gas, rather than a solid wire filament, by passing an electrical current
  7 KB (1,199 words) - 10:55, 9 March 2024
• Joseph Black/Bibliography
  |title=James Hutton, Joseph Black and the chemical theory of heat.
  4 KB (518 words) - 06:12, 27 January 2009
• Sputnik
  ...rth of the [[Soviet Union]]. Unfortunately it is thought the dog died from heat and stress a few hours after launch.
  3 KB (489 words) - 19:13, 15 October 2013