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This is a trick question, because in the world as we know it, entropy never decreases, since the chance of this happening approaches and infinitely small fraction.

To answer the question though:

Take any closed system of events that you've observed, and rewind the events as if you were "going back in time".

Example: An egg the has splattered all of a sudden recombines off the floor and becomes a whole egg again.

Some scientists believe that the last time entropy ever decreased in our universe was right before the big bang. Since this chance occurrence, entropy throughout the whole universe has been steadily increasing.

My addition (person 2) - However, entropy CAN decrease locally, just not universally. Essentially entropy rests on the fact that work ultimately comes from a flow of heat energy from high to low, eventually balancing out. Once all the heat energy is uniform in the universe, we will experience "heat death" at which point no work will be able to be done. However, in systems WITHIN the closed system of the universe, entropy CAN be decreased. Freezing an ice cube, if you follow the entropy equation which I don't have with me, is one example of this. The cost of this local decrease in entropy is a universal increase in entropy from the heat released that is greater than the local decrease in entropy, thus the second law is not violated. Another example is biological growth. We humans develop from a single cell into a vastly complex arrangement of cells, but at the same time we produce heat that increases universal entropy more than our bodies decrease it.

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13y ago
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16y ago

Ice melting is a good example - energy is used to melt the ice but no work is done so it is sometimes called useless energy - check Wika Dictionary def.

Take a bag of red marbles and a bag of blue marble and dump them together on a table top. You will notice that the marble mix together instead of segregating into coloured groups. This in entropy.

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11y ago

There are macroscopic and microscopic examples of increasing entropy, all of which are also examples of increasing disorder and randomness.

Macroscopic:

Watch yourself get old.

Break something.

Watch your tea get cold.

In the study of thermodynamics and quantitative science, the examples usually involve the rearrangements of atoms and molecules inside matter and the change in entropy is given by dS=dQ/T.

A good example is the melting of an ice cube. dQ is the energy (heat) it takes to melt the ice cube. (dQ=3334 Jules per gram or about 80 calories per gram). T is the absolute temperature of melting ice, usually 273 K.

Now, this is not the whole story since the volume of the water and ice are different in normal daily life, and there are complexities of thermodynamics that are being skipped. Even so, ice melts, randomness of water molecules increases and entropy of the water increases.

Another microscopic example can be given when you create magnetism in a metal like iron and the internal organization is made more organized and entropy of the iron decreases. (Or course, total entropy always increases, so entropy of the magnetization creating process must increase or it must give off heat.)

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13y ago

Entropy is a thermodynamic property dealing with disorder. For example, a gas would have a higher entropy than a solid, because the molecules are more disordered. Entropy, along with enthalpy, can be used to determine the spontaneity of a reaction.

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9y ago

The most blatant example of entropy occurring in a living system is death. No matter how much energy is put into keeping a living system in order, it eventually falls into decline. In this sense, the lack of predictability of living systems, is actually quite predictable.

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9y ago

A pile of papers being scattered and Gas molecules expanding to fill their container

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11y ago

Relationships break down... material things break get old, useless... people get old, get sick and die...

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11y ago

It's not much use to give "examples of entropy"; it is an abstract concept that you must try to understand as such.

Anyway, any matter that has heat energy, has entropy.

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Related questions

Is there anyway to decrease the entropy?

Only by increasing the entropy of another system.


What does the second law of thermodynamic say about entropy?

The entropy of the universe is increasing


How is energy permantely lost?

To feed the rise in Entropy. Enthalpy is a constant, but Entropy is always increasing.


Why is entropy irreversible?

It's not that entropy can't be reversed, it's that the entropy of the universe is always increasing. That means that while you can reduce the entropy of something, the entropy of another thing must go up even more so that in total, the entropy goes up.


Does heat shrink rubber?

may be for increasing it's entropy


When iron rusts is entropy increasing or decreasing?

yes because it is a naturally occurring process and all naturally occurring processes result in an increase in entropy.


Why increase the world entropy.?

Being alive increases the entropy of the world because we consume food and give off heat. Since I like being alive, I'm all in favor of increasing world entropy!


When scientists say that entropy is always increasing what do they mean?

that obama is the worst prez ever.


Which three phases of H2O is arranged in order of increasing entropy?

Ice has an ordered structure.


What is happening to the universe as the time goes by?

It is expanding, It is getting cooler, It's entropy is increasing.


Which list of phases of H2O is arranged in order of increasing entropy?

ice, liquid water, and steam


What are a set of conditions would result in a reaction that is unambiguously non-spontaneous?

endothermic, increasing entropy