Consider a monatomic ideal gas with initial pressure and temperature 4.50 × 105 Pa and 293 K, respectively. Assume the gas expands at constant pressure from a volume of 1.25 L to 3.20 L. 1) Find the work done on the environment. 2) Find the change in internal energy of the gas. 3) Find the thermal energy absorbed by the gas during this process. 4) Use the molar heat capacity at constant pressure to find the thermal energy absorbed.

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Consider a monatomic ideal gas with initial pressure and temperature 4.50 ×
105 Pa and 293 K, respectively. Assume the gas expands at constant
pressure from a volume of 1.25 L to 3.20 L.
1) Find the work done on the environment.
2) Find the change in internal energy of the gas.
3) Find the thermal energy absorbed by the gas during this process.
4) Use the molar heat capacity at constant pressure to find the thermal
energy absorbed.
Transcribed Image Text:Consider a monatomic ideal gas with initial pressure and temperature 4.50 × 105 Pa and 293 K, respectively. Assume the gas expands at constant pressure from a volume of 1.25 L to 3.20 L. 1) Find the work done on the environment. 2) Find the change in internal energy of the gas. 3) Find the thermal energy absorbed by the gas during this process. 4) Use the molar heat capacity at constant pressure to find the thermal energy absorbed.
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