An ideal diatomic gas undergoes the following 4 processes: A (rapid compression), B, C (isothermal expansion), and D, as shown below. There are 1.49 moles of the gas, and at point 1, the temperature of the gas is 16.9 °C. P(Pa) PA P V₂ Vs A C D V₁ V(L) Part 1) If V₁ 1.74 L and P₂30.0 MPa, what is V₂? V₂ = L Part 2) What is the change in internal energy for process A? AEint k.J Part 3) What is the work done on the gas during process B if V3 = 0.473 L?

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An ideal diatomic gas undergoes the following 4 processes: A (rapid compression), B, C (isothermal expansion), and D, as shown below.
There are 1.49 moles of the gas, and at point 1, the temperature of the gas is 16.9 °C.
P(Pa)
P₂
PA
P₁
2 B 3
V₂ Vs
D
1
V₂
V(L)
Part 1)
If V₁ = 1.74 L and P₂30.0 MPa, what is V₂?
V₂ =
L
Part 2)
What is the change in internal energy for process A?
AEint==
kJ
Part 3)
What is the work done on the gas during process B if V3 = 0.473 L?
Transcribed Image Text:An ideal diatomic gas undergoes the following 4 processes: A (rapid compression), B, C (isothermal expansion), and D, as shown below. There are 1.49 moles of the gas, and at point 1, the temperature of the gas is 16.9 °C. P(Pa) P₂ PA P₁ 2 B 3 V₂ Vs D 1 V₂ V(L) Part 1) If V₁ = 1.74 L and P₂30.0 MPa, what is V₂? V₂ = L Part 2) What is the change in internal energy for process A? AEint== kJ Part 3) What is the work done on the gas during process B if V3 = 0.473 L?
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