A monatomic ideal gas in a cylinder undergoes a cycle consisting of three processes, as shown in the P-V (pressure vs. volume) diagram. The gas expands at constant pressure from point A to B, it follows a straight path from point B to C, and finally undergoes a constant temperature compression from point C to A. The gas consists of a fixed number of N=1000NA = 6x1026 particles. You may approximate Boltzmann's constant as kg - 10-23 J/K, and latm =105 N/m². a) What is the internal energy of the gas at point A?
A monatomic ideal gas in a cylinder undergoes a cycle consisting of three processes, as shown in the P-V (pressure vs. volume) diagram. The gas expands at constant pressure from point A to B, it follows a straight path from point B to C, and finally undergoes a constant temperature compression from point C to A. The gas consists of a fixed number of N=1000NA = 6x1026 particles. You may approximate Boltzmann's constant as kg - 10-23 J/K, and latm =105 N/m². a) What is the internal energy of the gas at point A?
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Transcribed Image Text:A monatomic ideal gas in a cylinder undergoes a cycle consisting of three processes, as shown in the P-V
(pressure vs. volume) diagram. The gas expands at constant pressure from point A to B, it follows a straight
path from point B to C, and finally undergoes a constant temperature compression from point C to A. The gas
consists of a fixed number of N=1000NA = 6x1026 particles. You may approximate Boltzmann's constant as
kg - 10-23 J/K, and latm =105 N/m².
a) What is the internal energy of
the gas at point A?
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