Explanation The molecule size of U F 6 is greater than H 2 gas as U F 6 is polyatomic molecule while H 2 is a diatomic molecule. Formula to calculate the molar specific heat of the gas, C = 1 n ⋅ d Q d T C is the molar specific heat of the gas n is the number of moles of the gas d Q is the amount of heat transfer d T is the temperature difference Since, the number of moles n is same for both gas and the heat is added to them at equal rates, the temperature r

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First law of Thermodynamics

The word thermodynamics consists of two words: thermo- and dynamics. Dynamics means the study of motion. The field of thermodynamics is all about the study of the movement of heat. In a more meaningful way, it is stated as the study of the transfer of en…

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Chapter 19, Problem 19.22DQ

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Between one mole of UF6 gas and one mole of H2 gas, the molecule for which the temperature rise is faster is the heat is added at equal rates to both.

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Chapter 19, Problem 19.21DQ

Chapter 19, Problem 19.23DQ

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Chapter 19 Solutions

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Between one mole of U F 6 gas and one mole of H 2 gas, the molecule for which the temperature rise is faster is the heat is added at equal rates to both.

Solution Summary: The author explains that the temperature rise is faster for H_2 gas because it has lesser magnitude of specific heat.

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Between one mole of UF6 gas and one mole of H2 gas, the molecule for which the temperature rise is faster is the heat is added at equal rates to both.

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Chapter 19 Solutions