Solar radiation emitted by sun resembles that emitted by a body at a temperature of `6000 K` Maximum intensity is emitted at a wavelength of about `4800A^(@)` If the sun was cooled down from `6000K` to `3000K` then the peak intensity would occure at a wavelenght of .

Solar radiation emitted by sun resembles that emitted by a body at a temperature of 6000 K Maximum intensity is emitted at a wavelength of about 4800A^(@) If the sun was cooled down from 6000K to 3000K then the peak intensity would occurs at a wavelength of .

Solar radiation emitted by the sun resembles the radiations emitted by a black body at the temprature of 6000 K. Maximum intensity is emitted at a wavelength of 4800 Å. If the temperature of the sun decreases from 6000 K to 4000 K , then the peak intensity would occur at a wavelength of

Solar radiation emitted by sun resembles that emitted by a black body at a wavelength of about 4800 overset @ (A) ,. If the sun were to cool down from 6000K to 3000K then the peak intensity would occur at a wavelength

A black body at 1227^(@)C emits radiations with maximum intensity at a wavelength of 5000 Å . If the temperature of the body is increased by 1000^(@) , the maximum intensity will be observed at

A black body at 1227^(@)C emits radiations with maximum intensity at a wavelength of 5000 Å . If the temperature of the body is increased by 1000^(@) , the maximum intensity will be observed at

If Wien's constant b = 0.3 cm K, then the temperature of the Sun having a maximum intensity of radiation at 5000Å wavelength is

If Wien's constant b = 0.3 cm K, then the temperature of the Sun having a maximum intensity of radiation at 5000Å wavelength is

A furnace is at a temperature of 2000K . At what wavelength does it emit most intensively?