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An irreversible process is a change in the thermodynamic state of a system and its surroundings that cannot be precisely restored by infinitesimal changes in some property of the system without expenditure of energy. Learn about the concept, examples, and applications of irreversible processes in thermodynamics, biology, and complex systems.
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. Reversible processes are quasi-static and can be restored to the initial states, while irreversible processes are natural and violate the second law of thermodynamics.
Summary. A reversible process is one in which both the system and its environment can return to exactly the states they were in by following the reverse path. An irreversible process is one in which the system and its environment cannot return together to exactly the states that they were in.
Learn the concepts, examples and conditions of reversible and irreversible processes in thermodynamics. A reversible process is ideal and can return to the original state, while an irreversible process is natural and departs from equilibrium.
14 Ιουν 2021 · Learn the difference between reversible and irreversible processes in thermodynamics, and how to identify them based on the criteria of equilibrium and spontaneity. Explore examples, diagrams, and applications of reversible and irreversible processes in chemical systems.
An irreversible process is a chemical reaction or a physical change that produces entropy and cannot be reversed. Learn about the properties, criteria and examples of irreversible processes in thermodynamics, electrochemistry, polymer composites and more from ScienceDirect articles and books.
