The ratio of radiant energies radiated per unit surface area by two bodies is `16 : 1`, the temperature of hotter body is 1000 K , then the temperature of colder body will be

The amount of heat enerrgy radiated per unit time per unit area by a body depends upon

The law which relates the energy radiated per second by unit area of a body and fourth power of absolute temperature of body is

At what temperature does a body stop radiating ?

The energy emitted per second by a black body at 27^(@)C is 10 J. If the temperature of the black body is increased to 327^(@)C , the energy emitted per second will be

A black body emits radiations of maximum intensity at a wavelength of Å 5000 , when the temperature of the body is 1227^(@)C . If the temperature of the body is increased by 1000^(@)C , the maximum intensity of emitted radiation would be observed at

The shows a radiant energy spectrum graph for a black body at at temperature T If the temperature of the body is raised to a higher temperature T then choose the correct statement (s).

The amount of thermal radiation energy emitted from the surface of a body is found to be proportional to the ........ power of the absolute temperature of the body.

If temperature of black body increases from 300K to 900K , then the rate of energy radiation increases by

A black body emits radiations of maximum intensity at a wavelength of 5000 A, when the temperature of the body is 1227° C. If the temperature of the body is increased by 2227 °C, the maximum intensity of emitted radiation would be observed at