Explain – based solely on thermodynamic considerations – why the energy density of a photon cavity is proportional to T^4, independent of the size, shape and material of the cavity.
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Q: Ex. 57: The threshold wavelength for photonmission from silver is 3800 Å. Calculate the maximum…
A: Given-λ0=3800 A0=3.8×10-7 mλ=2600 A0=2.6×10-7 mc=3×108 m/sh=6.63×10-34 Js1 eV=1.6×10-19 J
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Q: A small lightbulb with volume 1cm3 is heated to 2000K. Estimate the energy inside the cavity due to…
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Q: Ex. 57: The threshold wavelength for photonmission from silver is 3800 Å. Calculate the maximum…
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Q: Q4: Show that the relation between the directions of motion of the scattered photon and the…
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Q: Explain-based solely on thermodynamic considerations why the energy density of a photon cavity is…
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Q: Q4: Show that the relation between the directions of motion of the scattered photon and the…
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Q: Part a) Find the total energy (in J) of 2.158 x 10^19 photons of red light (λ=675 nm)? Part b)…
A: Given: Number of photons, N = 2.158×1019 Wavelength of the photon, λ = 675 nm = 6.75×10-7 m…
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Q: Q4: Show that the relation between the directions of motion of the scattered photon and the…
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Q: Calculate the frequency and momentum of a photon of wavelength 620 nm.
A: Electromagnetic radiations travel in space as particles called photons. They are characterized by…
Q: Ex. 57: The threshold wavelength for photonmission from silver is 3800 A. Calculate the maximum…
A: Given-λ0=3800 A0=3.8×10-7 mλ=2600 A0=2.6×10-7 mc=3×108 m/sh=6.63×10-34 Js1 eV=1.6×10-19 J
Explain – based solely on
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