One very special method for performing work is to do so reversibly. A change of state occurs reversibly if the external pressure equals the gas pressure throughout the change of state. If the change of state occurs isothermally (at constant temperature), then the expression for reversible work on an ideal gas is: w= -nRTln(V2/V1) A 4.00-mol sample of an ideal gas, initially at 331 K and occupying a volume of 3.4 L, does 2,765 J of isothermal reversible work on the surroundings. What is the final volume (in L)? Round your answer to the tenths (0.1) place.
One very special method for performing work is to do so reversibly. A change of state occurs reversibly if the external pressure equals the gas pressure throughout the change of state. If the change of state occurs isothermally (at constant temperature), then the expression for reversible work on an ideal gas is: w= -nRTln(V2/V1) A 4.00-mol sample of an ideal gas, initially at 331 K and occupying a volume of 3.4 L, does 2,765 J of isothermal reversible work on the surroundings. What is the final volume (in L)? Round your answer to the tenths (0.1) place.
Chapter3: The First Law Of Thermodynamics
Section: Chapter Questions
Problem 60P: An amount of n moles of a monatomic ideal gas in a conducting container with a movable piston is...
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One very special method for performing work is to do so reversibly. A change of state occurs reversibly if the external pressure equals the gas pressure throughout the change of state. If the change of state occurs isothermally (at constant temperature), then the expression for reversible work on an ideal gas is: w= -nRTln(V2/V1)
A 4.00-mol sample of an ideal gas, initially at 331 K and occupying a volume of 3.4 L, does 2,765 J of isothermal reversible work on the surroundings. What is the final volume (in L)? Round your answer to the tenths (0.1) place.
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