If the temperature of any ideal black body is halved, then the wavelength of maximum emission will be

The wave length of maximum emitted energy of a body at 700 K is 4.08 mu m . If the temperature of the body is raised to 1400 K, the wavelength of maximum emitted energy will be

Behaviour of an ideal black body is similar to

The energy spectrum of a black body exhibits a maximum around a wavelength lamda_0 . The temperature of the black body is now changed such that the energy is maximum around a wavelength 3 lamda_0//4 . The power radiated by the black body will now increase by a factor of

The surface temperature of a black body is 1200 K. What is the wavelength corresponding to maximum intensity of emission of radiation if Wien's constant b = 2.892 xx 10^-3 mk ?

The power radiated by a black body is P, and it radiates maximum energy around the wavelength lambda_(0) . If the temperature of the black body is now changed so that it radiates maximum energy around a wavelength 3lambda_(0)//4 , the power radiated by it will increase by a factor of

If the temperature of a black body is doubled, the frequency at which the spectral intensity becomes maximum will be

When a black body is heated, it emits heat radiations of

Emissive power of a perfectly black body

A black body radiates 20 W at temperature 227^(@)C . If temperature of the black body is changed to 727^(@)C then its radiating power wil be

The spectrum from a black body radiation is a