A heat engine with 0.221 mol of a monatomic gas undergoes the cyclic procedure shown in the pV diagram, where P₁ = 360 kPa, p2 = 480 kPa, V₁ = 1.52 x 10³ cm³, and V₁ = 2.34 x 10³ cm³. Between Stage 3 and Stage 1, the gas is at a constant temperature, and between Stage 2 and Stage 3, no heat is transferred in or out. The temperature of the gas at Stage 2 is 400 K. Identify the type of each process in the cycle. The process between Stage 1 and Stage 2 is isochoric. The process between Stage 3 and Stage 1 is isothermal. What is the temperature 7 between Stages 3 and 1? What is the work Wout per cycle of this heat engine? Find the efficiency e of this heat engine. Pressure (kPa) P₁- P₁- T = The process between Stage 2 and Stage 3 is e = Wout 298 283 Incorrect 0.77 Incorrect Volume (cm³) adiabatic. K J

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A heat engine with 0.221 mol of a monatomic gas undergoes
the cyclic procedure shown in the pV diagram, where
P₁ = 360 kPa, p2 = 480 kPa, V₁ = 1.52 x 10³ cm³, and
V₁ = 2.34 x 10³ cm³. Between Stage 3 and Stage 1, the gas
is at a constant temperature, and between Stage 2 and Stage
3, no heat is transferred in or out. The temperature of the gas
at Stage 2 is 400 K.
Identify the type of each process in the cycle.
The process between Stage 1 and Stage 2 is
isochoric.
The process between Stage 3 and Stage 1 is
isothermal.
What is the temperature 7 between Stages 3 and 1?
What is the work Wout per cycle of this heat engine?
Find the efficiency e of this heat engine.
Pressure (kPa)
P₁-
P₁-
T =
The process between Stage 2 and Stage 3 is
e =
Wout
298
283
Incorrect
0.77
Incorrect
Volume (cm³)
adiabatic.
K
J
Transcribed Image Text:A heat engine with 0.221 mol of a monatomic gas undergoes the cyclic procedure shown in the pV diagram, where P₁ = 360 kPa, p2 = 480 kPa, V₁ = 1.52 x 10³ cm³, and V₁ = 2.34 x 10³ cm³. Between Stage 3 and Stage 1, the gas is at a constant temperature, and between Stage 2 and Stage 3, no heat is transferred in or out. The temperature of the gas at Stage 2 is 400 K. Identify the type of each process in the cycle. The process between Stage 1 and Stage 2 is isochoric. The process between Stage 3 and Stage 1 is isothermal. What is the temperature 7 between Stages 3 and 1? What is the work Wout per cycle of this heat engine? Find the efficiency e of this heat engine. Pressure (kPa) P₁- P₁- T = The process between Stage 2 and Stage 3 is e = Wout 298 283 Incorrect 0.77 Incorrect Volume (cm³) adiabatic. K J
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