Wein's constant is `2892xx10^(-6)m` K and the value of `lambda_(m)` for moon is 14.46 micron. The surface temperature of the moon is

Wein's constant is 2892xx10^(-6) MKS unit and the value of lambda_(m) from moon is 14.46 microns. What is the surface temperature of moon

If λm for the moon is 14.5 micron ,then find its temperature.

The intensity of the solar radiation is maximum for wavelength lamda_(m)=4753Å in the visible region. The surface temepratureof the sun, is (Assume the sun to be a black body. Wien's constant (b) =2.892xx10^(-3)mK )

The wavelength lambda_(m) of maximum intensity of emission of solar radiation is lambda_(m) = 4753 Å and from moon is lambda_(m) = 14 mum The surface temperature of sun and moon are (given b = 2.898 xx 10^(-3) meter/Kelvin)

Find the distance of a point from the earth's centre where the resultant gravitational field due to the earth and the moon is zero. The mass of the earth is 6.0xx10^24 kg and that of the moon is 7.4x10^22 kg. The distance between the earth and the moon is 4.0xx10^5km .

The mass of the earth is 6 × 10^(24) kg and that of the moon is 7.4 xx 10^(22) kg. If the distance between the earth and the moon is 3.84xx10^(5) km, calculate the force exerted by the earth on the moon. (Take G = 6.7 xx 10^(–11) N m^(2) kg^(-2) )

Find the distance of a point from the earth's centre where the resultant gravitational field due to the earth and the moon is zero The mass of the earth is 6.0 xx 10^(24)kg and that of the moon is 7.4 xx 10^(22)kg The distance between the earth and the moon is 4.0 xx 10^(5)km .

The acceleration due to gravity at the moon's srface is 1.67 ms^(-2) . If the radius of the moon is 1.74 xx 10^(6) m , calculate the mass of the moon. Use the known value of G.

The acceleration due to gravity at the moon's surface is 1.67 ms^(-2) . If the radius of the moon is 1.74 xx 10^(6) m , calculate the mass of the moon.

If mass of a body is M on the earth surface, then the mass of the same body on the moon surface is