Physics/Essays/Fedosin/Planck mass

In physics, the Planck mass (mP) is the unit of mass in the system of natural units known as Planck units. It is defined so that

where c is the speed of light in vacuum, G is the gravitational constant, and h is the reduced Planck constant.

Particle physicists and cosmologists often use the reduced Planck mass, which is

= 4.341 × 10-9 kg = 2.435 × 1018 GeV/c2.

The added factor of simplifies a number of equations in general relativity.

The name honors Max Planck, who was the first to propose it. The Planck mass is not so far from Stoney mass and connect with it through fine structure constant in the way:

Derivations

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Dimensional analysis

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The formula for the Planck mass can be derived by dimensional analysis. In this approach, one starts with the three physical constants ħ, c, and G, and attempt to combine them to get a quantity with units of mass. The expected formula is of the form

 

where   are constants to be determined by matching the dimensions of both sides. Using the symbol L for length, T for time, M for mass, and writing "[x]" for the dimensions of some physical quantity x, we have the following:

 
 
 .

Therefore,

 

If one wants dimensions of mass, the following equations must hold:

 
 
 .

The solution of this system is:

 

Thus, the Planck mass is:

 

Significance

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Unlike all other Planck units and most Planck derived units, the Planck mass is a macroscopic amount, having a scale more or less conceivable to humans. For example, the body mass of a flea is roughly 4000 to 5000 mP.

The Planck mass has the Schwarzschild radius equals to its Compton wavelength divided by  . The Planck mass is also the mass of the Planck particle, a hypothetical tiny black hole whose Schwarzschild radius equals the Planck length.

The Planck mass is an idealized mass thought to have special significance for quantum gravity when general relativity and the fundamentals of quantum physics become mutually important to describe mechanics.

See also

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References

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Sources

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  1. Sivaram C. WHAT IS SPECIAL ABOUT THE PLANCK MASS? PDF
  2. Johnstone Stoney, Phil. Trans. Roy. Soc. 11, (1881)
  3. Stephen J. Crothers and Jeremy Dunning-Davies†. Planck Particles and Quantum Gravity. PROGRESS IN PHYSICS, Vol.3, July, 2006
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