The distance of Neptune and Saturn from the Sun are nearly `10^(13)` and `10^(12)m` respectively. Ratio of their time period will be

The distance of two planets from the sun are 10^(13) and 10^(12) m respectively. The ratio of the periods of the planet is

The distance of Neptune and Saturn from the Sun are respectively 10^(13) and 10^(12) meters and their periodic times are respectively T_n and T_s . If their orbits are circular, then the value of T_n//T_s is

The distance of the two planets from the Sun are 10^(13)m and 10^(12) m , respectively. Find the ratio of time periods of the two planets.

A planet of mass m moves around the Sun of mass Min an elliptical orbit. The maximum and minimum distance of the planet from the Sun are r_(1) and r_(2) , respectively. Find the relation between the time period of the planet in terms of r_(1) and r_(2) .

A planet of mass m is moving in an elliptical orbit about the sun (mass of sun = M). The maximum and minimum distances of the planet from the sun are r_(1) and r_(2) respectively. The period of revolution of the planet wil be proportional to :

Take the mean distance of the moon and the sun from the earth to be 0.4 xx 10^(6) km and 150 xx 10^(6) km respectively. Their masses are 8 xx 10^(22) kg and 2 xx 10^(30) kg respectively. The radius of the earth of is 6400 km . Let DeltaF_(1) be the difference in the forces exerted by the moon at the nearest and farthest points on the earth and DeltaF_(2) be the difference in the force exerted b the sun at the nearest and farthest points on the earth. Then, the number closest to (DeltaF_(1))/(DeltaF_(2)) is :

If wavelengths of maximum intensity of radiations emitted by the sun and the moon are 0.5xx10^(-6)m " and " 10^(-4) m respectively, the ratio of their temperature is ……………

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 maximum and minimum distance of a comet form the sun are 8xx10^(12)m and 1.6xx10^(12)m . If its velocity when nearest to the sun is 60m//s , what will be its velocity in m/s when it is farthest

The radiation emitted by a star A is 10000 times that of the sun. If the surface temperature of the sun and star A are 6000 K and 2000 K respectively. The ratio of the radii of the star A and the sun is: