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A: Given wavelength corresponding to peak radiation is λp =300nm=300x10-9m
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A: Given :- power emitted by a blackbody is proportional to T^4 T1 = 3000 K T2 = 6000K
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A: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and…
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A: GivenThe spectrum of radiation from a blackbody at a temperature, T1= 3500 K
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Q: Calculate the temperature of a blackbody that peaks at a frequency of 7.5·108 MHz.
A: Given Fmax = 7.5 x 108 MHz = 7.5 x 108 x 106 Hz
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Q: The radius of our sun is r = 6.96 × 108 m and its total power is 3.85 × 1026 W. The area of a sphere…
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A: Use Wein displacement law
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A: Temperature, T=3000K
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A: Assume the room temprerature is standard 20°C or 293 K
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A: The second ionization potentials of helium atom is 54.4 eV. A Singly ionized Helium atom, like…
Q: The power emitted by a blackbody is proportional to T^4. If the temperature of the blackbody goes…
A: It is given that power emitted by blackbody is proportional to T4 .
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Q: The sun can be treated as a blackbody at 5780 K. Using EES (or other) software, calculate and plot…
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Let the energy density in the frequency interval f to f + df within a blackbody at temperature T be dU(f, T). Show that the power emitted through a small hole of area ∆A in the container is
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