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Learn what reversible and irreversible processes are in thermodynamics, and how they differ in their ability to return to the original state. See examples of both types of processes, and test your knowledge with a quiz.
In thermodynamics, a reversible process is a process, involving a system and its surroundings, whose direction can be reversed by infinitesimal changes in some properties of the surroundings, such as pressure or temperature.
A reversible process is a process in which the system and environment can be restored to exactly the same initial states that they were in before the process occurred, if we go backward along the path of the process. The necessary condition for a reversible process is therefore the quasi-static requirement.
Reversible Process. Gain an intricate understanding of the Reversible Process in Engineering Thermodynamics through this comprehensive guide. Uncover the essential definition, key components and various examples of this integral aspect of thermodynamics.
Learn the definitions and examples of reversible and irreversible processes in thermodynamics. A reversible process is one that can be restored to the initial states of system and environment, while an irreversible process is one that cannot.
14 Ιουν 2021 · We distinguish between two kinds of irreversible processes. A process that cannot occur under a given set of conditions is said to be an impossible process. A process that can occur, but does not do so reversibly, is called a possible process or a spontaneous process.
A reversible process is a thermodynamic process that can be reversed without leaving any trace on the surroundings. This means that both the system and the surroundings can be returned to their original states after the process has occurred, making it an idealized concept in thermodynamics.
