The wavelength of greatest radiation intensity inside a greenhouse is `9.66xx10^(-6)` m. Calculate the corresponding temperature. Wien's constant is 0.00289 mK.

The kinetic energy of translation of an oxygen molecule at a particular temperature of 6.27 xx 10^(-31) J . Calculate the temperature . Boltzman's constant = 1.38 xx 10^(-23) J//K .

If wavelength of maximum intensity of radiation emitted by sun and moon are 0.5xx10^(-6) m and 10^(-4) m respectively. Calculate the ratio of their temperatures

The sun radiates energy at the rate of 6.4xx10^(7)Wm^(-2) . Calculate its temperature assuming it to be a black body.

If the wavelength corresponding to maximum energy radiated from the moon is 14 micron, and wien's constant is 2.8xx10^(-3)mK , then temperature of moon is

The wavelength of maximum intensity of radiation emitted by a star is 289.8 nm . The radiation intensity for the star is : (Stefan’s constant 5.67 xx 10^(-8)Wm^(-2)K^(-4) , constant b = 2898 mu m K )-

Experimental investigations show that the intensity of solar radiation is maximum for a wavelength 480 nm in the visible ragion. Estimate the surface temperature of sun. (Given Wien's constant b = 2.88 xx 10^(-3) m K ).

For a person with normal hearing, the faintest sound that can be at a frequency of 400 Hz has pressure amplitude of about 6.0 xx 10^(-5) Pa . Calculate the corresponding intensity in W//m^(2) . Take speed of sound in air as 344 m//s and density of air 1.2 kg//m^(3) .

According to Wien's law, the wavelength (lambda) corresponding to the maximum light intensity emitted from a blackbody at temperature T is given by lambdaT=2.9xx10^(-3) mK . Calculate the surface temperature of a star whose blackbody radiation has a peak intensity corresponding to then n=1 rarr n=2 excitation of hydrogen.

For a person with normal hearing, the faintest sound that can be heard at a frequency of 400 Hz has a pressure amplitude of about 6.0 xx 10^(-5) Pa . Calculate the corresponding intensity and sound intensity lavel at 20^(@) C . (Assume upsilon = 330 m//s and rho _(air) = 1.29 kg //m^(3) ).

Calculate the wavelength at which a hot body radiates maximum energy if its surface temperature is 3200^(@) C. Wien's constant 0.00289 mK.