Theorem of maximum work (Thermo)

In summary, the Theorem of Maximum Work is a fundamental principle in thermodynamics that states the maximum work that can be obtained from a system is equal to its change in free energy. It is applied in various real-life situations, including power plants, refrigerators, and engines, to determine the maximum efficiency of these systems. The theorem is based on the assumptions of thermodynamic equilibrium and constant external pressure, and it is closely related to the concept of entropy. While it cannot be violated, practical limitations such as friction and heat loss may prevent the maximum work from being achieved.
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Feynmanfan
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How would you guys explain "qualitatively" the theorem of maximum work based on this diagram. (that is when a process is reversible and no entropy change in the universe)

I don't really know what the graph means. Let's say it's an ideal gas, (S=LnU+...). The diagram divides the plane in two areas. I need to analyze points in both areas and somehow deduce this theorem of maximum work.

I'd be grateful if anybody could help me!
 

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Do you know where I can read about this theorem?
 
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The theorem of maximum work in thermodynamics states that for a reversible process, the maximum amount of work that can be obtained is equal to the change in free energy of the system. In other words, the work done by the system is at its maximum when the process is reversible. This is represented by the area under the curve in a pressure-volume diagram.

In order to understand this concept qualitatively, we can look at the diagram provided. The graph divides the plane into two areas, one above the curve and one below. The area above the curve represents the work done by the system, while the area below the curve represents the work done on the system.

For a reversible process, the area above the curve is equal to the area below the curve. This means that the work done by the system is equal to the work done on the system. In other words, the system is able to do work without losing any energy or experiencing any entropy change. This is because the process is reversible, meaning it can be reversed without any changes to the system or its surroundings.

On the other hand, for an irreversible process, the area above the curve will always be greater than the area below the curve. This means that the work done by the system is greater than the work done on the system. In this case, the system is losing energy or experiencing an entropy change, making it less efficient.

In summary, the theorem of maximum work tells us that a reversible process is the most efficient way to obtain work from a system. This is because there are no energy losses or entropy changes, allowing the system to do the maximum amount of work.
 

1. What is the Theorem of Maximum Work in Thermodynamics?

The Theorem of Maximum Work, also known as the Maximum Work Theorem, is a fundamental principle in thermodynamics that states that the maximum amount of work that can be obtained from a system is equal to its change in free energy. This theorem helps to determine the maximum efficiency of a thermodynamic process.

2. How is the Theorem of Maximum Work applied in real-life situations?

The Theorem of Maximum Work is applied in various real-life situations, such as in power plants, refrigerators, and engines. It helps in determining the maximum efficiency of these systems and optimizing their performance. For example, in a power plant, the theorem is used to determine the maximum amount of work that can be obtained from a certain amount of fuel.

3. What are the assumptions made in the Theorem of Maximum Work?

The Theorem of Maximum Work is based on two main assumptions: 1) the system is in a state of thermodynamic equilibrium, and 2) the external pressure remains constant during the process. Additionally, it assumes that the system is isolated and does not exchange energy or matter with its surroundings.

4. How is the Theorem of Maximum Work related to entropy?

The Theorem of Maximum Work is closely related to the concept of entropy in thermodynamics. In fact, the maximum work that can be obtained from a system is related to the change in entropy through the equation: ΔW = TΔS, where ΔW is the maximum work, T is the temperature, and ΔS is the change in entropy.

5. Can the Theorem of Maximum Work be violated?

No, the Theorem of Maximum Work is a fundamental principle in thermodynamics and cannot be violated. However, in real-life situations, the maximum work may not be achieved due to various factors such as friction, heat loss, and inefficiencies in the system. This is known as the Carnot limit, and it sets a practical upper limit on the maximum work that can be obtained from a system.

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