Calculating Entropy of a System: What to Do?

In summary, the entropy of an apple would increase from order to disorder. This would happen because eventually the apple would rot.
  • #1
pivoxa15
2,255
1
What would you do if you were asked to calculate the entropy of an object such as an apple? Does the question even make sense?
 
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  • #2
If it makes sense. What does it mean?
 
  • #3
In accordance with the second law of entropy the apple would move from order to disorder, which simply means that eventually it will go rotten.
 
  • #4
It makes sense. What it means is taking the natural log of the multiplicity(the number of way of arranging things in the system) multiplied by Boltzmann's constant. S = k*ln(omega)

The second law of thermodynamics says that this number tends to increase. So like Tzemach said, the apple will rot.
 
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  • #5
pivoxa15 said:
What would you do if you were asked to calculate the entropy of an object such as an apple? Does the question even make sense?

Well, you'd have to count all the different microscopic arrangements of the particles in the apple which would still be compatible with your description of "apple". This number, N, is then entered in Boltzman's formula:

S = k ln N

with k = Boltzmann's constant, and it will give you the entropy.
k = 1.38 10^(-23) Joule/Kelvin

As you see, the concept of entropy is in principle dependent of the precision by which you describe your apple, but this is usually taken as "macroscopically distinct" descriptions. And, when you look at it numerically, it really doesn't change much the value of S when you add, or leave out, an extra macroscopic specification.
This is because even if your macroscopic description changes the number N of compatible states, by, say, a factor 10^50, this would only change your entropy by k x ln 10^50 ~ k x 150 ~ 10^(-20) Joule/Kelvin, an utterly small amount of entropy.
 
  • #6
Or, you skip the stat mech, stick to old-fashioned, "smash-mouth" thermo, and integrate C/T from absolute zero to room T; or, add the third law entropies for 130-140 grams of water, 50-60 grams of sugars, and other organic compounds, plus an entropy of mixing term (sum of R(xlnx)), where x = mole fraction), and go on your merry way.
 
  • #7
And what about burning it in a lab?
Could the measurement of the combustion product allow backflushing to the entropy of the apple?
Any idea about it?
 

1. What is entropy?

Entropy is a measure of the disorder or randomness in a system. It is a physical quantity that describes the degree of uncertainty or unpredictability in a system.

2. How is entropy calculated?

The entropy of a system can be calculated by using the formula S = k ln W, where S is the entropy, k is the Boltzmann constant, and W is the number of possible microstates or arrangements of particles in the system.

3. What is the significance of calculating entropy?

Calculating entropy allows us to understand the thermodynamic behavior of a system. It helps us predict how a system will change over time and is a fundamental concept in understanding the laws of thermodynamics.

4. What factors affect the entropy of a system?

The entropy of a system depends on the number of particles, the temperature, and the volume of the system. It also increases with disorder and randomness in a system.

5. Can entropy be negative?

Yes, entropy can be negative. This means that the system is more ordered or less random than a reference state. For example, in a perfect crystal, the particles are arranged in an ordered manner, resulting in a negative entropy value.

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