8.11. A thermally insulated cylinder, closed at both ends, is fitted with a frictionless heat- conducting piston that divides the cylinder into two parts. Initially, the piston is clamped in the center with 1 liter of air at 300 K and 2 atm pressure on one side and 1 liter of air at 300 K at 1 atm pressure on the other side. The piston is released and reaches equilibrium in pressure and temperature at a new position. Compute the final pressure and temperature and increase of entropy if air is assumed to be the ideal gas. What irreversible process has taken place?
8.11. A thermally insulated cylinder, closed at both ends, is fitted with a frictionless heat- conducting piston that divides the cylinder into two parts. Initially, the piston is clamped in the center with 1 liter of air at 300 K and 2 atm pressure on one side and 1 liter of air at 300 K at 1 atm pressure on the other side. The piston is released and reaches equilibrium in pressure and temperature at a new position. Compute the final pressure and temperature and increase of entropy if air is assumed to be the ideal gas. What irreversible process has taken place?
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Transcribed Image Text:8.11. A thermally insulated cylinder, closed at both ends, is fitted with a frictionless heat-
conducting piston that divides the cylinder into two parts. Initially, the piston is
clamped in the center with 1 liter of air at 300 K and 2atm pressure on one side
and 1 liter of air at 300 K at 1 atm pressure on the other side. The piston is released
and reaches equilibrium in pressure and temperature at a new position. Compute the
final pressure and temperature and increase of entropy if air is assumed to be the
ideal gas. What irreversible process has taken place?
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