Surface temperature of the sun as estimate is `6032.25K`. Find the wavelength at which sun radiates maximum energy (Given, Wien's constant `=0.2898cm-k`)

The surface temperature of a hot body is 1227^(@) C. Find the wavelength at which it radiates maximum energy. Given Wien's constant = 0.2892 cm.K.

The surface temperature of a hot body is 1227^(@)C . Find the wavelength at which it radiates maximum energy. Given Wien's constant = 2898 cm K .

The surface temperature of a hot body is 1227^@C . Find the wave length at which it radiates maximum energy. Given wien's constant=0.2898cmk

The surface temperature of the hot body is 1127^(@)C find the wavelenght at which it radiates maximum energy. Given Wien's constant = 0.2898 cm K. To which spectrum region this wavelength belongs?

A hot body has a surface temperature of 1345^@C . Calculate the wavelength at which it radiates maximum energy . Take . Wein,s constant = 0.2898 cm K

If the surface temperature of the sun is assumed to be 6150 K, find the wave length of maximum intensity in the sun’s radiation taking Wien's constant 2.88 xx 10^-3mk .

Calculate the effective temperature of the sun . Given that the wavelength of maximum energy in the solar spectrum is 475 mm and Wien's constant is 2.898xx10^(-3) mK.

The surface temperature of a black body is 1200 K. What is the wavelength corresponding to maximum intensity of emission of radiation if Wien's constant b = 2.892xx10^(-3)mK ?

The surface temperature of a black body is 1200 K. What is the wavelength corresponding to maximum intensity of emission of radiation if Wien's constant b = 2.892 xx 10^-3 mk ?