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 distances of two planets from the sun are 10^(13) m and 10^(12) m respectively. Find the ratio of time periods and speeds of the two planets.

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

The distance of Neptune and Saturn from the sun is rearly 10^(13)m " and "10^(12)m respectively. Assuming that they move in circular orbits, then what will be the ratio of their periods.

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

Two planets move around the sun. The periodic times and the mean radii of the orbits are T_(1), T_(2) and r_(1) r_(2) respectively. The ratio T_(1)//T_(2) is equal to

Two satellites A and B of masses 200kg and 400kg are revolving round the earth at height of 600 km and 1600 km respectively. If T_(A) and T_(B) are the time periods of A and B respectively then the value of T_(B)- T_(A) : [Given : radius of earth = 6400km, mass of earth = 6xx10^(24)kg]

Two planets are moving around the sun. The periodic times and mean radii of the orbits are T_(1), T_(2) and r_(1), r_(2) respectively. The ratio of T_(1)//T_(2) is equal to