A 0.617 mol sample of Xe(g) initially at 298 K and 1.00 atm is held at constant volume while enough heat is applied to rai temperature of the gas by 10.3 K. Calculate the amount of heat (q) required to bring about this temperature change, and fin corresponding total change in the internal energy of the gas (AU). The constant-volume molar specific heat for Xe(g), which consists of single atoms, is equal to R, where R = 8.3145 J/(m is the ideal gas constant. q= 79.259218425 J AU = 52.83947895

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A 0.617 mol sample of Xe(g) initially at 298 K and 1.00 atm is held at constant volume while enough heat is applied to raise the
temperature of the gas by 10.3 K. Calculate the amount of heat (q) required to bring about this temperature change, and find the
corresponding total change in the internal energy of the gas (AU).
The constant-volume molar specific heat for Xe(g), which consists of single atoms, is equal to R, where R = 8.3145 J/(mol·K)
is the ideal gas constant.
9 =
79.259218425
J
AU =
52.83947895
Transcribed Image Text:A 0.617 mol sample of Xe(g) initially at 298 K and 1.00 atm is held at constant volume while enough heat is applied to raise the temperature of the gas by 10.3 K. Calculate the amount of heat (q) required to bring about this temperature change, and find the corresponding total change in the internal energy of the gas (AU). The constant-volume molar specific heat for Xe(g), which consists of single atoms, is equal to R, where R = 8.3145 J/(mol·K) is the ideal gas constant. 9 = 79.259218425 J AU = 52.83947895
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