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")`

The wavelength lambda_(m) of maximum intensity of emission of solar radiation is lambda_(m) = 4753 Å and from moon is lambda_(m) = 14 mum The surface temperature of sun and moon are (given b = 2.898 xx 10^(-3) meter/Kelvin)

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

Experimental investigations show that the intensity of solar radiation is maximum for a wavelength 480 nm in the visible ragion. Estimate the surface temperature of sun. (Given Wien's constant b = 2.88 xx 10^(-3) m K ).

Experimental investigations show that the intensity of solar radiation is maximum for a wavelength 480 nm in the visible ragion. Estimate the surface temperature of sun. (Given Wien's constant b = 2.88 xx 10^(-3) m K ).

The sun radiates maximum energy at wavelength 4753Å . The surface temperature of the sun if b=2.888xx10^(-3)mK , is

The sun radiates maximum energy at wavelength 4753Å . The surface temperature of the sun if b=2.888xx10^(-3)mK , is

Experimental investigations show that the intensity of solar radiation is maximum for a wavelength 480 nm in the visible region. Estimate the surface temperature of sun. Given Wein's constant b = 2.88xx10^(-3) mK