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Learn the difference between reversible and irreversible processes in thermodynamics, with examples and explanations. Find out how to identify the factors that make a process irreversible and the ideal conditions for reversibility.
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.
Learn the definitions and examples of reversible and irreversible processes in thermodynamics. Find out how the second law of thermodynamics relates to irreversibility and spontaneous heat flow.
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Learn the concepts, examples and conditions of reversible and irreversible processes in thermodynamics. Reversible processes are ideal and can return to original states, while irreversible processes are natural and depart from equilibrium.
14 Ιουν 2021 · Learn the definitions and characteristics of reversible and irreversible processes in thermodynamics. A reversible process is one that can be reversed by infinitesimal changes in the system and surroundings, while an irreversible process is one that cannot or does not occur under given conditions.
An irreversible process increases the total entropy of the system and its surroundings. The second law of thermodynamics can be used to determine whether a hypothetical process is reversible or not. Intuitively, a process is reversible if there is no dissipation.
