Suppose a planet exists whose mass and radius both, are half those of earth. Calculate the acceleration due to gravity on the surface of this planet.

If a planet existed whose mass and radius were both half of that of the eawrth. What would be the acceleration due to gravity at the surface of the planet in terms of that on the surface of the earth?

Suppose a planet exist whose mass and diameter both are twice of earth. Calculate acceleration due to gravity on this planet. On earth, take g=9.8 m//s .

If a planet consists of a satellite whose mass and radius were both half that of the earh, then acceleration due to gravity at its surface would be

If a planet consists of a satellite whose mass and radius were both half that of the earh, then acceleration due to gravity at its surface would be

If both the radius and the mean density of a planet are half the radius and the mean density of the earth, what will be the acceleration due to gravity on the surface of that planet ? Given that the acceleration due to gravity on the earth's surface =980 cm*s^(-2)

If a planet consits of a satellite whose mass and radius were both half that of the earth, the acceleration due to gravity at its surface would be (g on earth= 9.8m//sec^(2) )

The mass of a planet and its diameter are three times those of earth's. Then the acceleration due to gravity on the surface of the planet is : (g =9.8 ms^(-2))

The mass of a planet and its diameter are three times those of earth's. Then the acceleration due to gravity on the surface of the planet is : (g =9.8 ms^(-2))