Find the value of k in equation in day and kilometer. `k = 10^(-13) s^(2)m^(-3)` The distance of artificial satellite from earth is 14R. Where Re = radius of earth. Find its time period.

Express the constant k of Eq. (8.38) in days and kilometres. Given k = 10^(–13) s^(2) m^(–3) . The moon is at a distance of 3.84 x× 105 km from the earth. Obtain its time-period of revolution in days.

The minimum and maximum distances of a satellite from the centre of the earth are 2R and 4R respectively where R is the radius of earth and M is the mass of the earth find radius of curvature at the point of minimum distance.

Assuming the Sun to be a spherical body of radius R at a temperature of TK, evaluate the total radiant powered incident of Earth at a distance r from the sun where r_0 is the radius of the Earth and sigma is Stefan's constant.

One projectile after deviating from its path starts moving round the earth in a circular path of radius equal to nine times the radius of earth R. Its time period is

An artificial satellite revolves around the earth, remaining close to the surface of the earth, Show that its time period is T = 2pi sqrt(R_e/g)

A satellite A of mass m is at a distance of r from the surface of the earth. Another satellite B of mass 2m is at a distance of 2r from the earth's centre. Their time periods are in the ratio of