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What is the law of disorder?

What is the law of disorder?

More specifically, the second law of thermodynamics states that “as one goes forward in time, the net entropy (degree of disorder) of any isolated or closed system will always increase (or at least stay the same).” Left unchecked disorder increases over time. Energy disperses, and systems dissolve into chaos.

Which best describes the second law of thermodynamics?

Complete answer: The second law of thermodynamics states that the full entropy of the associated isolated system will ne’er decrease over time, and is constant if and given that all processes are reversible. Isolated systems spontaneously evolve towards physics equilibrium, the state with most entropy.

What is the measure of disorder in a system called?

entropy, the measure of a system’s thermal energy per unit temperature that is unavailable for doing useful work. Because work is obtained from ordered molecular motion, the amount of entropy is also a measure of the molecular disorder, or randomness, of a system.

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What is the amount of disorder called?

The correct answer is (c) Entropy. Entropy describes the total disorder in a particular system, such as a living organism, or even the universe.

Is the 2nd Law of thermodynamics a valid theory?

Adding energy creates disorder, not order. The 2nd Law of Thermodynamics has been a central point of those striving against evolutionary dogma and, as we have seen above, with good reason. Until evolutionists have answers to the issues raised above, their theory has no validity.

Do thermodynamically isolated systems tend toward greater disorder?

It is true that the second law tells us that left to themselves (i.e. without infusions of organizing energy) thermodynamically isolated systems will tend toward greater disorder. No thermodynamically isolated system (no system that cannot receive energy from outside itself) can move from a condition of lesser order toward greater order.

Is entropy a form of disorder?

No, the Second Law of Thermodynamics (SLT) says nothing of the sort (Wikipedia is wrong ): Entropy is not disorder. As a thought experiment (and assuming that the Big Bang really happened), consider first the “early Universe” — believed to be an utterly chaotic whirl of plasma — and then, some time later, a cluster of galaxies.

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Why doesn’t entropy decrease in a closed system?

This requires that the chemicals decrease entropy to become organized into chemical bonds needed to form DNA. Under the 2nd Law of Thermodynamics, this is impossible. Entropy has never been observed to decrease in a closed system without the input of an outside power.