Statement-1: When the temperature of a b...

Statement-1: When the temperature of a black body is doubled from` t^(@)C` to `2t^(@)C`, the radiant power becomes 16 times.
Statement-2: The radiant power of a body is proportional to fourth power of absolute temperature.

Similar Questions

Explore conceptually related problems

Statement-1 : When temperature of a black body is doubled, energy radiated/sec/area becomes 16 times. Statement-2 : This is per Stefan's law.

Assertion : Bodies radiate heat at all temperatures. Reason : Rate of radiation of heat is proportional to the fourth power of absolute temperature.

(A) : Bodies radiate heat at all temperatures. ( R) : Rate of radiation of heat is inversely proportional to the fourth power of absolute temperature.

(A) : For higher temperature, the peak emission wavelength of a black body shifts to lower wavelengths. ( R) : Peak emission wavelength of a blackbody is proportional to the fourth power of absolute temperature.

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.

The temperature of an isolated black body falls from T_(1) to T_(2) in time t. Let C be a constant, then

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

Statement-1: When the temperature of a black body is doubled from` t^(@)C` to `2t^(@)C`, the radiant power becomes 16 times. Statement-2: The radiant power of a body is proportional to fourth power of absolute temperature.

Similar Questions

Recommended Questions

Statement-1: When the temperature of a black body is doubled from` t^(@)C` to `2t^(@)C`, the radiant power becomes 16 times.
Statement-2: The radiant power of a body is proportional to fourth power of absolute temperature.