Quasi-static Processes
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Quasi-static processes are important because they:
Explanation: Quasi-static processes have well-defined properties, making them easier to analyze in thermodynamic calculations.
2 / 10
Which system undergoes a quasi-static process?
Explanation: Slow heating allows the system to adjust gradually, maintaining near-equilibrium, typical of quasi-static processes.
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A quasi-static process is often:
Explanation: Quasi-static processes are idealized as reversible since they occur slowly, minimizing energy losses.
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Which condition ensures a process is quasi-static?
Explanation: Quasi-static processes involve small, gradual changes, keeping the system near equilibrium at every step.
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In a quasi-static isothermal process, what remains constant?
Explanation: An isothermal process keeps temperature constant, and in a quasi-static case, it occurs slowly to maintain equilibrium.
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 A non-quasi-static process is typically:
Explanation: Non-quasi-static processes, like rapid expansion, deviate from equilibrium and are often irreversible.
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 Why are quasi-static processes idealized?
Explanation: In quasi-static processes, properties like pressure and temperature are uniform at each step, ideal for analysis.
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Which is an example of a quasi-static process?
Explanation: Slow compression allows the gas to adjust gradually, maintaining near-equilibrium conditions.
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In a quasi-static process, the system:
Explanation: The system remains infinitesimally close to equilibrium, allowing properties like temperature and pressure to be uniform.
10 / 10
What is a quasi-static process?
Explanation: A quasi-static process happens slowly, keeping the system close to equilibrium, with well-defined properties at each step
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