e steps of a reversible Stirling engine are as follows. For this problem, we will use 0. mol onatomic gas that starts at a temperature of 133 °C and a volume of 0.10 m³, which will be int A. Then it goes through the following steps: 1. Step AB: isothermal expansion at 133 °C from 0.10 m³ to 0.20 m3 2. Step BC: isochoric cooling to 33 °C 3. Step CD: isothermal compression at 33 °C from 0.20 m3 to 0.10 m3 4. Step DA: isochoric heating back to 133 °C and 0.10 m Draw the pV diagram for the Stirling engine with proper labels.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The steps of a reversible Stirling engine are as follows. For this problem, we will use 0.0010 mol of a
monatomic gas that starts at a temperature of 133 °C and a volume of 0.10 m³, which will be called
point A. Then it goes through the following steps:
1. Step AB: isothermal expansion at 133 °C from 0.10 m³ to 0.20 m3
2. Step BC: isochoric cooling to 33 °C
3. Step CD: isothermal compression at 33 °C from 0.20 m3 to 0.10 m3
4. Step DA: isochoric heating back to 133 °C and 0.10 m3
(a) Draw the pV diagram for the Stirling engine with proper labels.
(b) Fill in the following table.
Step
W (J)
Q (J)
AS (J/K)
Step AB
Step BC
Step CD
Step DA
Complete cycle
Transcribed Image Text:The steps of a reversible Stirling engine are as follows. For this problem, we will use 0.0010 mol of a monatomic gas that starts at a temperature of 133 °C and a volume of 0.10 m³, which will be called point A. Then it goes through the following steps: 1. Step AB: isothermal expansion at 133 °C from 0.10 m³ to 0.20 m3 2. Step BC: isochoric cooling to 33 °C 3. Step CD: isothermal compression at 33 °C from 0.20 m3 to 0.10 m3 4. Step DA: isochoric heating back to 133 °C and 0.10 m3 (a) Draw the pV diagram for the Stirling engine with proper labels. (b) Fill in the following table. Step W (J) Q (J) AS (J/K) Step AB Step BC Step CD Step DA Complete cycle
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