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प्रश्न
Explain the second law of thermodynamics in terms of entropy.
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उत्तर
The quantity `"Q"/"T"` is called entropy. It is a very important thermodynamic property of a system.
It is also a state variable. `"Q"_"H"/"T"_"H"` is the entropy received by the Carnot engine from a hot reservoir and `"Q"_"L"/"T"_"L"` is entropy given out by the Carnot engine to the cold reservoir. For reversible engines (Carnot Engine) both entropies should be the same so that the change in entropy of the Carnot engine in one cycle is zero. But for all practical engines like diesel and petrol engines which are not reversible engines, they satisfy the relation `"Q"_"L"/"T"_"L" > "Q"_"H"/"T"_"H"`.
In fact, we can reformulate the second law of thermodynamics as follows
“For all the processes that occur in nature (irreversible process), the entropy always increases. For reversible process entropy will not change”. Entropy determines the direction in which natural processes should occur.
Entropy increases when heat flows from hot objects to cold objects. If heat were to flow from a cold to a hot object, entropy will decrease leading to violation of second law thermodynamics. Entropy is also called ‘measure of disorder’. All-natural process occurs such that the disorder should always increase.
Consider a bottle with gas inside. When the gas molecules are inside the bottle it has less disorder. Once it spreads into the entire room it leads to more disorder. In other words, when the gas is inside the bottle the entropy is less and once the gas spreads into the entire room, the entropy increases. From the second law of thermodynamics, entropy always increases. If the air molecules go back into the bottle, the entropy should decrease, which is not allowed by the second law of thermodynamics. The same explanation applies to a drop of ink diffusing into water. Once the drop of ink spreads, its entropy is increased. The diffused ink can never become a drop again. So the natural processes occur in such a way that entropy should increase for all irreversible processes.
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