When the temperature of a black body inc...

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

Similar Questions

Explore conceptually related problems

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

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

If the temperature of a black body is increased then the wavelength corresponding to the maximum emission will

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

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

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

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

Similar Questions

Recommended Questions