At what height from the surface of earth, the gravitation potential and the value of `g` are `-5.4 xx 10^(7) "J kg"^(-2) and 6 " ms"^(-2)` respecitvely ? Take, the radius of earth is 6400 km.

At what height from the surface of earth the gravitation potential and the value of g are - 5.4 xx 10^(7) J kg^(-2) and 6.0 ms^(-2) respectively ? Take the radius of earth as 6400 km :

At what height from the surface of earth the gravitation potential and the value of g are - 5.4 xx 10^(7) J kg^(-2) and 6.0 ms^(-2) respectively ? Take the radius of earth as 6400 km :

The height from the surface of earth at which the gravitational potential energy of a ball of mass m is half of that at the centre of earth is (where R is the radius of earth)

At a point above the surface of the earth, the gravitational potential is -5.12 xx 10^(7) J/kg and the acceleration due to gravity is 6.4 m//s^(2) . Assuming the mean radius of the earth to be 6400 km, calculate the height of the point above the earth's surface.

At what height above the surface of earth the value of "g" decreases by 2 % [ radius of the earth is 6400 km ]

At what height from the surface of earth will the value of g be reduced by 36% from the value on the surface? Take radius of earth R = 6400 km .

At what height above the surface of the earth will the acceleration due to gravity be 25% of its value on the surface of the earth ? Assume that the radius of the earth is 6400 km .

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 :

What is the work done in taking an object of mass 1kg from the surface of the earth to a height equal to the radius of the earth ? ( G = 6.67 xx 10^(-11) Nm^(2)//Kg^(2) , Radius of the earth = 6400 km, Mass of the earth = 6 xx 10^(24) kg .)

What is a period of revolution of the earth satellite ? Ignore the height of satellite above the surface of the earth. Given, (i) the value of gravitational acceleration, g = 10 ms^(-2) (ii) radius of the earth, R_(g) =6400 km (take, pi = 3.14 )