Question about the uncertainty principle and unit cell in phase space

In summary, textbooks state that the volume of the smallest cell in the phase space of a N-particle system is h^{rN}, based on Boltzmann's use of a finite cell size to prevent infinite number of states. However, this value was determined experimentally by Sackur and Tetrode, before the involvement of Planck's constant. Now, with the understanding of quantum mechanics, the allowed values of k for a cube of volume V are spaced at intervals Δk = 2π/L, giving V(Δp)3 = h3.
  • #1
Icefrog
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0
In statistical mechanics, nearly all the textbooks say that the volume of the smallest cell in the phase space of a N-particle system is h[itex]^{rN}[/itex] where h is the Planck Constant, r is the degree of freedom.

Also these books say that this comes from the uncertainty principle. However, the uncertainty principle is ΔxΔpx[itex]\geqℏ/2[/itex] .
So why they take h instead of ℏ/2 in calculating the volume?

Many thanks!
 
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  • #2
Also these books say that this comes from the uncertainty principle.
Actually, the books I read all say it does not. Historically, a finite cell size h was put in by Boltzmann to prevent the number of states from becoming infinite. Its value was determined experimentally by Sackur and Tetrode when they investigated the low temperature entropy of a monatomic gas. This work was pre-quantum mechanics, and so Planck's constant was not involved.

Now we know that particles are described quantum mechanically by wave functions. For a cube of volume V = L3, we impose periodic boundary conditions and find the allowed values of k to be spaced at intervals Δk = 2π/L, or Δp = 2πħ/L, implying V(Δp)3 = h3.
 
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Related to Question about the uncertainty principle and unit cell in phase space

1. What is the uncertainty principle in physics?

The uncertainty principle, also known as Heisenberg's uncertainty principle, is a fundamental concept in quantum mechanics that states that the position and momentum of a particle cannot be simultaneously measured with absolute precision. This means that the more precisely one of these quantities is measured, the less precisely the other can be known.

2. How does the uncertainty principle relate to unit cells in phase space?

In classical mechanics, phase space is a mathematical space that represents all possible states of a system. In quantum mechanics, this concept is extended to include both position and momentum coordinates. The uncertainty principle states that the product of the uncertainties in position and momentum must be greater than or equal to a certain value, known as Planck's constant. This means that the size of a unit cell in phase space cannot be smaller than this value.

3. Why is the uncertainty principle important in quantum mechanics?

The uncertainty principle is important because it sets a fundamental limit on the precision with which we can measure physical quantities in the quantum world. It also has implications for the behavior of particles at the subatomic level and plays a crucial role in many quantum phenomena, such as the wave-particle duality of matter.

4. How does the uncertainty principle affect our understanding of the universe?

The uncertainty principle challenges our classical understanding of the universe, which is based on determinism and the idea that all physical quantities can be precisely measured. In the quantum world, this is not the case, and the uncertainty principle highlights the limits of our knowledge and the inherent probabilistic nature of the universe.

5. Can the uncertainty principle be violated?

No, the uncertainty principle is a fundamental law of quantum mechanics and has been confirmed through numerous experiments. While it may seem counterintuitive, it is a necessary principle for understanding the behavior of particles at the subatomic level and has been validated by decades of scientific research.

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