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- '''Accidental overheating.''' The pool of molten sodium has enough heat capacity to absorb the decay heat if there is a total loss of power. Hot sodium will3 KB (532 words) - 14:13, 12 November 2023
- |align=left|= '''liquid [[specific heat capacity|specific heat]] at upstream temperature and pressure, J/(kg · °C)''9 KB (1,381 words) - 08:26, 1 September 2013
- |align=left|= '''liquid [[specific heat capacity|specific heat]] at upstream temperature and pressure, J/(kg · °C)''9 KB (1,408 words) - 07:00, 17 August 2024
- |align=left|= [[specific heat capacity]] of the gas at constant pressure |align=left|= specific heat capacity of the gas at constant volume19 KB (3,081 words) - 13:47, 12 August 2013
- |align=left|= [[specific heat capacity]] of the gas at constant pressure |align=left|= specific heat capacity of the gas at constant volume19 KB (3,100 words) - 17:01, 5 July 2024
- * the [[Specific heat|specific heat capacity]] of the fuel and the air12 KB (1,829 words) - 17:01, 30 July 2024
- ...mperature than areas close to the [[ocean]]. Oceans have in fact a great [[heat capacity]], which mitigates the climate.12 KB (1,816 words) - 17:00, 29 July 2024
- |align=left|= [[specific heat capacity|specific heat]] of the gas at constant pressure10 KB (1,539 words) - 12:00, 5 August 2024
- ...balances are also done based on [[Heat of reaction|heats of reaction]], [[Heat capacity|heat capacities]], expected temperatures and pressures at various points to22 KB (3,235 words) - 03:56, 22 November 2023
- ...balances are also done based on [[Heat of reaction|heats of reaction]], [[Heat capacity|heat capacities]], expected temperatures and pressures at various points to23 KB (3,460 words) - 12:00, 27 July 2024
- ...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
- ...nd depends parametrically on the molar gas constant ''R'' and the [[molar heat capacity]] at constant volume, ''C''<sub>V</sub>, The definition of heat capacity and the first law (''DQ = dU+pdV'', for constant volume: ''DQ=dU'') give,36 KB (5,928 words) - 10:21, 8 July 2019
- | [[heat capacity]], [[entropy (thermodynamics)|entropy]]|| kg·m<sup>2</sup>·s<sup>−2 | molar heat capacity, molar entropy23 KB (3,596 words) - 07:01, 2 September 2024
- very different [[heat capacity]]), it could be expected that after22 KB (3,534 words) - 12:01, 2 August 2024
- ...Cooled Fast Reactor.png|right|350px|Fig.2 Pool-type reactors have enormous heat capacity, and molten sodium will expand when hot, allowing convection to cool the co12 KB (1,950 words) - 12:01, 1 September 2024
- ...reactors, because it does not moderate neutron speeds much and has a high heat capacity. However, it burns and foams in air. However, the combustion reaction of so35 KB (5,380 words) - 12:01, 15 August 2024
- ...reactors, because it does not moderate neutron speeds much and has a high heat capacity. However, it burns and foams in air. However, the combustion reaction of so35 KB (5,414 words) - 18:19, 17 January 2023
- * [[specific heat capacity]]: 850 - 1050 [[SI#Other derived units||J/kg•K]]9 KB (1,305 words) - 17:00, 13 July 2024
- *C<sub>p</sub> [[heat capacity]]28 KB (4,523 words) - 17:02, 22 March 2024
- *"The specific heat capacity (CP and CV) is unusually high." Unusually high compared to what? I don't ag33 KB (5,328 words) - 16:57, 7 March 2024