When the temperature of a black body increases, it is observed that the wavelength corresponding to maximum energy changes from `0.26mum` to `0.13mum`. The ratio of the emissive powers of the body at the respective temperatures is

If the temperature of the body is increases from 27°C to 327°C then wavelength corresponding to maximum intensity becomes

If the temperature of a black body is increased, then the maximum of the spectrum will

IF the temperature of a black , body is doubled, the wavelength at which the spectral radiancy has its maximum is

The temperature (approx) of the body omitting wavelength 0.3 mum corresponding to maximum intensity is

If the temperature of a black body incresese from 7^(@)C to 287^(@)C then the rate of energy radiation increases by

Wien's law is concerned with: (a) wavelength corresponding to maximum energy and absolute temperature. (b) radiated energy and wavelength. (c) emissive power and temperature. (d) colour of light and temperature.

If the temperature of a black body is raised from 300K to 600K by what factor the rate of emission shall increase ?

If the temperature of hot black body is raised by 5%, rate of heat energy radiated would be increased by how much percentage ?

Power radiated by a black body is P_0 and the wavelength corresponding to maximum energy is around lamda_0 , On changing the temperature of the black body, it was observed that the power radiated becames (256)/(81)P_0 . The shift in wavelength corresponding to the maximum energy will be

Power radiated by a black body is P_0 and the wavelength corresponding to maximum energy is around lamda_0 , On changing the temperature of the black body, it was observed that the power radiated becames (256)/(81)P_0 . The shift in wavelength corresponding to the maximum energy will be