The rate of radiation of black body at `0^(@)C` is E watt. Then the rate of radiation of this black body at 273°C will be:

The rate of radiation of a black body at 0° C is E . The rate of radiation of this black body at 273^(@)C will be

What is a black body ?

Does a body at 0^(@) C radiate any heat ?

The ratio of energy of emitted radiation of black body at 27^(@)C and 927^(@) c is

The rate of dissipation of heat by a black body at temperature T is Q . What will be the the rate of dissipation of heat by another body at temperature 2T and emissivity 0.25 ?

The temperature of a radiation body increases by 30 % . Then the increase in the amount of radiation is

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

In the figure, the distribution of energy density of the radiation emitted by a black body at a given temperature is shown. The possible temperature of the black body is

A black body is at 727^(@)C . It emits energy at a rate which is proportional to

A black body is at 727^(@)C . It emits energy at a rate which is proportional to