Two stars emit maximum radiation at wavelength 3600 Å and 4800 Å respectively. The ratio of their temperatures is

Two stars emit maximum radiation at wavelength 3600 A^(0) and 4800 A^(0) respectively. The ratio of their temperatures is

Two stars A and B radiate maximum energy at wave lengths 4000Å and 5000Å respectively. The ratio of their temperature will be-

Two stars A and B radiate maximum energy at wave lengths 4000Å and 5000Å respectively. The ratio of their temperature will be-

Two stars A and B radiates maximum energy at 3600 Å and 4200 Å, respectively. Then the ratio of their temperature is

Two stars X and Y emit maximum radiations at 4800 Å and 6000 Å respectively. If the temperature of the star Y is 5800 K, then what is the temperature of the star X?

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

Two stars A and B radiate maximum energy 5200Å and 6500Å respectively. Then the ratio of absolute temperatures of A and B is

Stars S_(1) emits maximum radiation of wave length 420nm and the star S_(2) emits maximum radiation of wavelength 560nm , what is the ratio of the temperature of S_(1) and S_(2) :

Maximum wavelength of radiations from Sun and Moon are 25Å and 0.5xx10^(-6) m respectively ratio of their temperature is . . . .. .