A small satellite revolves round a planet in an orbit just above planet's surface. Taking the mean density of planet as `rho`, calculate the time period of the satellite.

A small satellite revolves round a planet in an orbit just above planet's surface. Taking the mean density of planet 8000 kg m^-3 and g= 6.67 * 10^(-11) ,Nm^-2/kg^-2 ,.calculate the time period of the satellite.

A small satellite revolves around a planet in an orbit just above planet's surface. Taking the mean density of the planet 8000 kg m^(-3) and G = 6.67 xx 10^(-11) N //kg^(-2) , find the time period of the satellite.

A small satellite revolves around a planet in an orbit just above planet's surface. Taking the mean density of the planet 8000 kg m^(-3) and G = 6.67 xx 10^(-11) N //kg^(-2) , find the time period of the satellite.

A small satellite revolves around a planet in an orbit just above planet's surface. Taking the mean density of the planet 8000 kg m^(-3) and G = 6.67 xx 10^(-11) N //kg^(-2) . find the time period of the satellite.

If rho is the density of the planet , the time period of nearby satellite is given by

A satellite revolves round a planet in an orbit just above the surface of planet. Taking G=6.67xx10^(-11) Nm^(2) kg^(-2) and the mean density of the planet =8.0xx10^(3) kg m^(-3) , find the period of satellite.

An artificial satellite revolves around a planet in circular orbit close to its surface. Obtain the formula for period of the satellite in terms of density U and radius R of planet.

A satellite revolves around a planet of mean density 4.38 xx 10^(3)kg//m^(3) , in an orbit close to its surface. Calculate the time period of the satellite. Take, G = 6.67 xx 10^(-11) Nm^(2) kg^(-2) .

A satellite needs no fuel to move round a planet in a stable orbit. Why?

A satellite revolves in an orbit close to the surface of a planet of mean density 5.51 xx 10^(3) kg m^(-3) . Calculate the time period of satellite. Given G = 6.67 xx 10^(-11) Nm^(2) kg^(-2) .