A black body at `127^(@)C` emits the energy at the rate of `10^(6)J//m^(2)` s the temperature of a black body at which the rate of energy emission is `16 xx 10^(6)J//m^(2)s` is .

Energy is being emitted from the surface of a black body at 127^(@)C temperature at the rate of 1.0xx10^(6)J//sec-m^(2) . Temperature of the black at which the rate of energy emission is 16.0xx10^(6)J//sec-m^(2) will be

Energy is being emitted from the surface of a black body at 127^(@)C temperature at the rate of 1.0xx10^(6)J//sec-m^(2) . Temperature of the black at which the rate of energy emission is 16.0xx10^(6)J//sec-m^(2) will be

Energy is being emitted from the surface of a block body at 127^(0)C temperature at the rate of 1.0xx10^(6)" J/sec - m"^(2) . Temperature of the black body at which the rate of energy emission is 16.0xx10^(6)" J/sec - m"^(2) will be

Energy is being emitted from the surface of a black body at 127∘ C temperature at the rate of,1.0times10^(6)J/sec-m^(2) .Temperature of the black body at which the rate of energy emission is 16.0times10^(6)J/sec-m^(2) will be

The temperature of the sun is 6000 K and is treated as a black body. The solar heat energy radiated by the sun is 10^(9)W//m^(2) . What is the temperature of a black body if it radiated heat energy of 10^(5)W//m^(2) ?

A black body is at 727^(@)C . It emits energy at a rate which is proportional to