The distribution of 9 units of energy among 6 identical particlesThe distributions of particles with the number of ways each distribution can be produced according to Maxwell-Boltzmann statistics where each particle is presumed to be distinguishable. The total number of different distributions is 26, but if the particles are distinguishable, the total number of different states is 2002.
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Blatt uses the term "macrostate" to describe the characterization of the system which gives just the number of particles in each state; the diagram above shows three of the 26 possible macrostates for this system. The term "microstate" is used for the more detailed characterization in which the specific energy level for each particle is given. The macrostate at left has only 6 microstates, because there are only 6 ways to put one particle in level 9 and the other 5 in level 0. But there are 180 ways to achieve the macrostate at right, so if every distribution is presumed to be equally likely, then the system is 30 times more likely to be found in the right hand macrostate. The number of distinguishable ways to produce each distribution is given by So for the three macrostates pictured above, the numbers of microstates are (Recall that 0!=1 so that the unoccupied states do not affect the calculation.) Now to establish the distribution function for the number of particles in each energy state, the number of particles in each state must be averaged over all of the microstates. For each macrostate, the number of particles in a given energy level is multiplied by the number of microstates. The sum of those products is divided by the total number of microstates, which is 2002 in this case. The number of microstates (the multiplicity W) for q units of energy among N equally probable states can be mathematically evaluated from the expression which for this case becomes
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The average distribution of 9 units of energy among 6 identical particlesThere are 26 possible distributions of 9 units of energy among 6 particles, and if those particles are assumed to be distinguishable, there are 2002 different specific configurations of particles. In Blatt's language, there are 26 macrostates and 2002 microstates. To get a distribution function of the number of particles as a function of energy, the average population of each energy state must be taken. The average for each of the 9 states is shown below, and the plot of those averages as a function of energy.
It is remarkable that the distribution obtained with only 6 particles so closely approximates the Maxwell-Boltzmann distribution. The derivation of the distribution function is a formidable mathematical problem which uses the calculus of variations to derive the most probable distribution under the constraints of constant energy and constant number of particles.
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Index Reference Blatt Ch. 11 | ||||||||||||||||||||||||||
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