The spectral emissive power `E_(lambda)` for a body at temperature `T_(1)` is plotted against the wavelength and area under the curve is found to be `9A.At` a different temperature `T_(2)` the area is found to be A then `lambda_(1)//lambda_(2)=`
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The spectral emissive power E_(lambda) for a body at temperature T_(1) is poltted againist the wavelenght and area under the curve is found to be A.At a different temperature T_(2) the area is found to be A then lambda_(1)//lambda_(2)= .

A black body emits maximum radiation of wavelength lambda_(1) at a certain temperature T_(1) . On increasing the temperature, the total energy of radiation emitted is increased 16 times at temperature T_(2) . If lambda_(2) is the wavelength corresponding to which maximum radiation is emitted at temperature T_(2) . Calculate the value of ((lambda_(1))/(lambda_(2))) .

De Broglie wavelength lambda associated with neutrons is related with absolute temperature T as

The wavelength of electron waves in two orbits (lambda_(1) : lambda_(2))

The spectral emissive power of a black body at a temperature of 6000K is maximum at lambda_m = 5000Å . If the temperature is increased by 10%, then the decrease in lambda_m will be -

Let the wavelength at which the the spectral emissive power of a black body (at a temperature T) is maximum, be denoted by lamda_(max) as the temperature of the body is increased by 1K, lamda_(max) decreases by 1 percent. The temperature T of the black body is

If lambda_(1) and lambda_(2) denote the wavelength of de-broglie waves for electron in Bohr's first and second orbits in the hydrogen atom, then lambda_(1)//lambda_(2) will be

The current in a metllic conductor is plotted against voltage at two different temperatures T_(1)andT_(2) . Which is correct

If V_(1) and V_(2) are veloctities of light in two different media, then the ratio of wavelength of light in the same media (lambda_(1))/(lambda_(2))=