Two spherical bodies A (radius 6cm) and ...

Two spherical bodies A (radius 6cm) and B (radius 18cm) are at temperature `T_(1)` and `T_(2)` respectively The maximum intensity in the emission spectrum of A is at `500 nm` and in that of `B` is at `1500nm` considering them to be black bodies, what will be the ratio of the rate of total energy radiated by A to that of `B` . ?

Similar Questions

Explore conceptually related problems

Two spherical bodies A (radius 6cm) and B (radius 18cm) are at temperature T_(1) and T_(2) respectively The maximum intensity in the emission spectrum of A is at 500 nm and in that of B is at 1500nm considering them to be black bodies, what will be the ratio of total energy radiated by A to that of B .

Two spherical black bodies of radii R_(1) and R_(2) and with surface temperature T_(1) and T_(2) respectively radiate the same power. R_(1)//R_(2) must be equal to

If the radius of a star is R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is Q ?

A spherical body of area A, and emissivity e = 0.6 is kept inside a black body. What is the rate at which energy is radiated per second at temperature T

Two stars A and B radiate maximum energy at the wavelength of 360nm and 480 nm respectively. Then the ratio of the surface temperatures of A and B is

Similar Questions

Recommended Questions