A certain diatomic gas has the same specific heats as an ideal gas but a slightly different equation of state: PV = R(T + αT²), α = 0.001K¯¹. The temperature of the gas is raised from T₁ = 300K to 12 at constant pressure. It is found that work done on the gas is 70% higher than what would be on an ideal gas. Choose the correct statement(s). A. T₂ = 400K internal energy increases by 250R/mole B. T₂ = 400K internal energy increases by 350R/mole C. Total heat absorbed in the process is 450R/mole D. Total heat absorbed in the process is 520R/mole
A certain diatomic gas has the same specific heats as an ideal gas but a slightly different equation of state: PV = R(T + αT²), α = 0.001K¯¹. The temperature of the gas is raised from T₁ = 300K to 12 at constant pressure. It is found that work done on the gas is 70% higher than what would be on an ideal gas. Choose the correct statement(s). A. T₂ = 400K internal energy increases by 250R/mole B. T₂ = 400K internal energy increases by 350R/mole C. Total heat absorbed in the process is 450R/mole D. Total heat absorbed in the process is 520R/mole
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Transcribed Image Text:A certain diatomic gas has the same specific heats as an ideal gas but a slightly
different equation of state: PV = R(T + αT²), α = 0.001K¯¹. The temperature of the gas is
raised from T₁ = 300K to 12 at constant pressure. It is found that work done on the gas is 70%
higher than what would be on an ideal gas. Choose the correct statement(s).
A. T₂ = 400K internal energy increases by 250R/mole
B. T₂ = 400K internal energy increases by 350R/mole
C. Total heat absorbed in the process is 450R/mole
D. Total heat absorbed in the process is 520R/mole
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