For an enclosure maintained at 2000 K, the maximum radiation occurs at wavelength `lambda_(m)`. If the temperature is raised to 3000 K, the peak will shift to `(K)/(3)xx lambda_(m)`. Then K is equal to ………………

A black body at 200 K is found to emit maximum energy at a wavelength of 14 mu m. When its temperature is raised to 1000K. the wavelength at which maximum energy emitted is

Power radiated by a black body at temperature T_(1) is P and it radiates maximum energy at a wavelength lambda_(1) . If the temperature of the black body is changed from T_(1) to T_(2) , itradiates maximum energy at a wavelength lambda_(1)//2 .The power radiated at T_(2) is

The wavelength of maximum emitted energy of a body at 700K is 4.08 um . If the temperature of the body is raised to 1400 K, the wavelength of maximum emitted energy will be

The power radiated by a black body is P, and it radiates maximum energy around thee wavelength lambda_(0) . If the temperature of the black body is now changed so that it radiates maximum energy around a wavelength 3lambda_(0)//4 , the power radiated by it will increase by a factor of

The rate constant of a reaction is doubled when the temperature is raised from 298 K to 308 K. Calculate the activation energy.

A black body radiates energy at the rate of E W//m^(2) at a high temperature T K. When the temperature is reduced to (T/2) K, the radiant energy is