Heat death of the universe and the 3rd law of thermodynamics

In summary, the third law of thermodynamics states that a crystal at absolute zero has zero entropy. As the universe ages, its entropy will increase until it reaches a point where it is equal to the entropy of the universe as a whole. However, in the far future, when the universe is essentially empty, its entropy will be given by the area of the cosmological horizon, which will be huge. It is possible that the energy that is in the form of photons and gravitational waves also contributes to the total entropy, but this has not been empirically verified.
  • #1
Robert Leslie
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If the universe keeps expanding and eventually ends in a "big freeze" or heat death, does this contradict the third law of thermodynamics?

The third law of thermodynamics states that a crystal at absolute zero has zero entropy. Since the entropy of the universe can never decrease, as the age of the universe approaches infinity, so will the entropy. However as the universe reaches heat death, and the stars burn out all their nuclear fuel, the temperature will also begin to approach absolute zero.

How can the temperature approach zero, and the entropy approach infinity at the same time? Does this contradict the third law of thermodynamics?
 
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  • #2
Robert Leslie said:
Since the entropy of the universe can never decrease, as the age of the universe approaches infinity, so will the entropy.
This is not true. You can have a monotonically increasing function that has a finite limit. Example: ##\lim_{x\to\infty} \arctan(x) = \pi/2##. Also, a constant function does not decrease, but it does not go to infinity either.

Also, heat death does not imply zero temperature, although that is what you will get if the the Universe expands eternally. It is just what happens when the Universe comes to thermal equilibrium.
 
  • #3
In a scenario where heat death is the state where the universe contains one particle per cosmic horizon, I am not sure there is a good way to evaluate either temperature or entropy. If heat death is some other scenario, I think both will have values that are not zero and not infinity respectively.
 
  • #4
Robert Leslie said:
If the universe keeps expanding and eventually ends in a "big freeze" or heat death, does this contradict the third law of thermodynamics?
Yes and no.

The third law of thermodynamics is a classical law that doesn't take into account either gravity or quantum mechanics. So yes, it is literally true that it contradicts the third law, but the reason it does so is that it is invalid to apply the third law of thermodynamics to the universe as a whole.

In the far future, when the universe is essentially empty, its entropy will be given by the area of the cosmological horizon, which will be huge.
 
  • #5
Robert Leslie said:
How can the temperature approach zero, and the entropy approach infinity at the same time? Does this contradict the third law of thermodynamics?

How do you deduce that all matter in the universe of far future will be in the form of perfect defect-free crystals? And even if it were, doesn't the energy that is in the form of photons and gravitational waves also contribute to the total entropy?
 

1. What is the heat death of the universe?

The heat death of the universe is a theoretical concept in which the universe reaches a state of maximum entropy, meaning that all energy is evenly distributed and no work can be done. This would result in a state of absolute coldness and darkness, as all energy is converted into unusable forms.

2. How does the 3rd law of thermodynamics relate to the heat death of the universe?

The 3rd law of thermodynamics states that the entropy of a perfect crystal at absolute zero temperature is zero. This means that as the universe reaches a state of maximum entropy, the entropy of all systems will approach zero, in accordance with the 3rd law.

3. Is the heat death of the universe a guaranteed event?

While the heat death of the universe is a widely accepted theory, it is not a guaranteed event. This is because it is based on the assumption that the universe will continue to expand indefinitely, and that no new sources of energy will be created in the future.

4. How does the heat death of the universe impact the existence of life?

If the heat death of the universe were to occur, it would mean the end of all life as we know it. With no usable energy left in the universe, all physical processes necessary for life would cease to exist. However, it is important to note that this is a long-term theory and will not happen for trillions of years.

5. Are there any proposed solutions to prevent the heat death of the universe?

Some scientists have proposed ideas such as the "Big Crunch" theory, in which the universe would eventually collapse back in on itself and potentially start a new cycle. Other theories involve the creation of new energy sources or the manipulation of entropy. However, these are all speculative and have not been proven to be possible.

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