The light from th esun is found to have a maximum intensity near the wavelength of 470nm. Assuming that the surface o f the sun emits as a blackbody, calculate the temperture of the surface of the sun.

The light from the sun is found to have a maximum intensity near the wavelength of 470nm. Assuming that the surface o f the sun emits as a blackbody, calculate the temperature of the surface of the sun.

The light from the sun is found to have a maximum intensity near the wavelength of 470nm. Assuming that the surface o f the sun emits as a blackbody, calculate the temperature of the surface of the sun.

The light from th sun is found to have a maximum intensity near the wavelength of 470nm . Assuming that the surface of the sun emits as a blackbody, calculate the temperature of the surface of the sun.

The light from the sun is found to have a maximum intensity near the wavelength of 470 nm. Assuming the surface of the sun as a black body, the temperature of the sun is

Solar radiation is found to have an intensity maximum near the wavelength range of 470 nm . Assuming the surface of sun to be perfectly absorbing (a =1) , calculate the temperature of solar surface.

The earth receives solor radiation at a rate of 8.2Jcm^(-2)min^(-1) . Assuming that the sun radiates like a blackbody, calculate the surface temperature of the sun. The angle subtended by the sun on the earth is 0.53^(@) and the stefan constant sigma=5.67xx10^(-s)Wm^(-2)K^(-4) .

The light emitted by the sun has maximum wavelength of 570 nm. The light emitted by another star has the maximum wavelength of 380 nm. What is the ratio of the surface temperatures of the star and the sun ?