If the temperature of the Sun were to increase from T to 2T and its radius from R to 2R. The rat io of power, radiated by it would become

When the temperature of a rod increases from t to r+Delta t , its moment of inertia increases from I to I+Delta I . If alpha is the value of Delta I//I is

The temperature of a body in increased from 27^(@)C to 127^(@)C . By what factor would the radiation emitted by it increase?

The surface temperature of the sun is T_(0) and it is at average distance d from a planet. The radius of the sun is R . The temperature at which planet radiates the energy is

In a black body radiation at certain temperature T_1 the wave length having maximum intensity of radiation equals 9000A^@ . When the temperature is increased from T_1 "to" T_2 the total radiation increases 16 times. The peak radiation at T_2 is found to be capable of ejecting photoelectrons. The maximum kinetic energy of photoelectrons is the same as the energy of photon that one gets when one of electron in the M -shall of hydrogen atom jumps to L-shell the work function of the metal will be

The work done in increasing the radius of a soap bubble from R to 3 R is

A surface at temperature T_(0)K receives power P by radiation from a small sphere at temperature T ltT_(0) and at a distance d. If both T and d are doubled the power received by the surface will become .

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.

A ball of surface temperature T is in thermal equilibrium with its environment. Which of the curve gives the radiating power E radiated by the sphere as a function of time 't' ?

When a wire is stretched and its radius becomes r//2 then its resistance will be

A black body emits radiation at the rate P when its temperature is T. At this temperature the wavelength at which the radiation has maximum intensity is lamda_0 , If at another temperature T' the power radiated is P' and wavelength at maximum intensity is (lamda_0)/(2) then