Unit of Stefan's constant is : -

The unit of Stefan's constant sigma is

What is Stefan's constant ?

Calculate the temperature at which a perfect black body radiates at the rate of 1 W cm^(-2) , value of Stefan's constant, sigma = 5.67 xx 10^(-5) W m^(-2) K^(-8)

The ratio of SI Unit to CGS unit of Planck's constant is

If the filament of a 100 W bulb has an area 0.25cm^2 and behaves as a perfect black body. Find the wavelength corresponding to the maximum in its energy distribution. Given that Stefan's constant is sigma=5.67xx10^(-8) J//m^(2)s K^(4) .

If the filament of a 100 W bulb has an area 0.25cm^2 and behaves as a perfect block body. Find the wavelength corresponding to the maximum in its energy distribution. Given that Stefan's constant is sigma=5.67xx10^(-8) J//m^(2)s K^(4) .

Assume that Solar constant is 1.4 kW//m^(2) , radius of sun is 7 xx 10^(5) km and the distance of earth from centre of sun is 1.5 xx 10^(8) km. Stefan's constant is 5.67 xx 10^(-8) Wm^(2) K^(-4) find the approximate temperature of sun

Dimensional formula for stefan’s constant is: (here K denotes the temperature)

Power emitted per unit area of a black body is R " watt/m"^(2) . At what wavelength will the power radiated by black body be maximum is stefan's constant is sigma and Wien's constant is b then.

The dimension of sigma b^4 (where sigma is Stefan's constant and b is Wien's constant) are [ML^4 T^(-3)] is it true.