[" 2.The wavelength of maximum intensity...

[" 2.The wavelength of maximum intensity of emission of so- "],[" lar radiation is "lambda m=4753 AA" and from moon it is "14mm" ."],[" The surface temperature of sun and moon are: (given "b=],[2.898times10^(-3)" metre/Kelvin) "],[[" (a) "6097K,207K," (b) "8097K,307K],[" (c) "10,000K,400K," (d) "3000K,100K]]

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The wavelength of maximum intensity of emission of solar radiation is lambda_(m) = 4753Å and from moon it is 14 mm . The surface temperature of sun and moon are: (Given b = 2.898 xx 10^(-3) "metre"// "Kelvin")

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Estimate the surface temperature of sun. Given for solar radiations, lambda_(m)=4753Å . ( b=2.89xx10^(-3) meter Kelvin)

If wavelengths of maximum intensity of radiations emitted by the sun and the moon are 0.5xx 10^(-6)m and 10^(-4)m respectively, the ratio of their temperatures is

If wavelengths of maximum intensity of radiations emitted by the sun and the moon are 0.5xx10^(-6)mand10^(-4)m respectively, the ratio of their temperatures is

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