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Answered 2011-05-11 19:31:05

Heat cannot of itself pass from a colder body to a hotter body.

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There are several different formulations of the Second Law of Thermodynamics; they sound quite different, but actually it turns out they are equivalent.One the them goes something like, "In a closed system, entropy can increase, but it can never decrease".


There are four laws of thermodynamics;Zeroth Law of Thermodynamics.First Law of Thermodynamics.Second Law of Thermodynamics.Third Law of Thermodynamics.


No system can convert energy from one form to another useful form with 100% efficiency. and Entropy of a system increases over time.


In the second law of thermodynamics, heat is converted and a good portion of it is lost.


According to the second law of Thermodynamics, the amount of usable energy will continuously decrease.According to the second law of Thermodynamics, the amount of usable energy will continuously decrease.According to the second law of Thermodynamics, the amount of usable energy will continuously decrease.According to the second law of Thermodynamics, the amount of usable energy will continuously decrease.


As stated by the expert: The First Law of Thermodynamics IS the Law of Conservation of Energy. The Second Law of Thermodynamics is not directly related; however, it provides additional restrictions, as to what can, and what cannot, be achieved.


"Unavailable for doing work" is related to the Second Law of Thermodynamics.


That would be the implication of the second law of thermodynamics.




First Law of Thermodynamics: Energy can be converted from one form to another, but cannot be created or destroyed.Second Law of Thermodynamics: The second law of thermodynamics states that for any process occurring in a closed system, the entropy increases for an irreversible system and remains constant for a reversible system, but never decreases.



The Second Law of Thermodynamics is equivalent to the Law of Conservation of Energy. The Law of Conservation of Matter is not stated in the laws of Thermodynamics.


cellular respiration is an example of 2nd law of thermodynamics


The second law of thermodynamics states that entropy in a closed system will continuously increase until the entropy reaches the maximum level at equilibrium.



There are hypothetical processes that would obey the First Law, but disobey the Second Law of Thermodynamics.


Aging is an example of the second law of thermodynamics because everyone ages, no matter what. It is a law that states every living being must adhere to it.



There is no commonly accepted law by that name, as far as I know. Two important laws about energy are the First Law of Thermodynamics and the Second Law of Thermodynamics.


The second law does not allow complete conversion of heat into work.



No. The Second Law is concerned with entropy.


Law of thermodynamics deals with the heat energy involved in a reaction. According to second law of thermodynamics, the energy system tries to increase the entropy. The entropy is a measure of chaos of molecules.