the electromagnetic field in a one-dimensional cavity is in thermal equilibrium, and the longest wavelength mode contains 4500 photons. (a) Calculate the number of photons in the second-longest wavelength mode. (b) Calculate the number of photons in the third-longest wavelength mode.
the electromagnetic field in a one-dimensional cavity is in thermal equilibrium, and the longest wavelength mode contains 4500 photons. (a) Calculate the number of photons in the second-longest wavelength mode. (b) Calculate the number of photons in the third-longest wavelength mode.
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the electromagnetic field in a one-dimensional cavity is in thermal equilibrium, and the longest wavelength mode contains 4500 photons. (a) Calculate the number of photons in the second-longest wavelength mode. (b) Calculate the number of photons in the third-longest wavelength mode. (c) Calculate jmax, the largest mode number
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