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- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str805 bytes (105 words) - 06:57, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str805 bytes (105 words) - 06:57, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str805 bytes (105 words) - 06:57, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str805 bytes (105 words) - 06:57, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str805 bytes (105 words) - 06:58, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str818 bytes (107 words) - 06:57, 6 March 2024
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str831 bytes (108 words) - 06:57, 6 March 2024
- {{r|Heat capacity}}915 bytes (131 words) - 17:46, 11 January 2010
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str984 bytes (137 words) - 06:57, 6 March 2024
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str984 bytes (137 words) - 06:57, 6 March 2024
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str984 bytes (137 words) - 06:58, 6 March 2024
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str998 bytes (139 words) - 06:58, 6 March 2024
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str1,007 bytes (140 words) - 06:57, 6 March 2024
- ...oint K|Critical point MPa|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str1 KB (148 words) - 06:57, 6 March 2024
- | pagename = Heat capacity | abc = Heat capacity2 KB (233 words) - 06:01, 15 April 2009
- ...ling point|Critical point|Triple point|Heat of fusion|Heat of vaporization|Heat capacity|Decomposition temperature|Vapor pressure|Vapor pressure comment|Crystal str2 KB (238 words) - 06:57, 6 March 2024
- ...time deciding whether to name this article '''Specific heat ratio''' or '''Heat capacity ratio'''. I finally used Google's book search function and Google's scholar ...ch: 7,070 books contained "specific heat ratio" and 3,820 books contained "heat capacity ratio".7 KB (1,070 words) - 13:27, 16 April 2009
- ...point<br />Triple point<br />Heat of fusion<br />Heat of vaporization<br />Heat capacity<br />Decomposition temperature<br />Vapor pressure<br />Vapor pressure comm2 KB (397 words) - 06:58, 6 March 2024
- ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiabatic expon ...th> for the [[internal energy]]. For an [[Ideal gas law|ideal gas]], the [[heat capacity]] is constant with temperature. Accordingly, we can express the enthalpy as10 KB (1,457 words) - 16:09, 23 September 2013
- ...math>. It is sometimes referred to as the '''adiabatic index''' or the '''heat capacity ratio''' or the '''isentropic expansion factor''' or the '''adiabatic expon ...th> for the [[internal energy]]. For an [[Ideal gas law|ideal gas]], the [[heat capacity]] is constant with temperature. Accordingly, we can express the enthalpy as10 KB (1,459 words) - 16:10, 23 September 2013