Outside the earth, g varies as `1//(R+h)^(2).`

Assertion : A particle is projected upwards with speed upsilon and it goes to a heigth h . If we double the speed then it will move to height 4h . Reason : In case of earth, acceleration due to gravity g varies as g prop(1)/(r^(2)) (for r ge R )

Outside the earth, the weight of a body veries as ……………………..

The gravitational force on a body inside the surface of the earth varies as ra, where r is the distance from the center of the earth and a is some constant. If the density of the earth is assumed uniform, then -

The value of acceleration due to gravity (g) at height h above the surface of earth is given as g^()=(gR)^(2)/((R+h))^(2) If h lt lt R , then prove that g^()=g(1-(2h)/(R))

Acceleration due to gravity on the surface of the earth is g = (GM)/(R^(2)) . The gravitational constant G is exacity known. But percentage error in measurement of the mass of earth M and radius of the earth R are 1% and 2% , respectively. The maximum percentage error in measurement of acceleration due to gravity on the surface of the earth is

The value of acceleration due to gravity (g) at height h above the surface of earth is given by g^'=(gR^2)/((R+h)^2) . If hlt ltR , then prove that g^'=g(1-(2h)/(R)) .

The value of gravity (g) at surface of earth is proportional to (1)/(R^(2)) , R is radius of earth, what is the value of gravity at height h from the surface.

Let the acceleration due to gravity be g_(1) at a height h above the earth's surface g_(2) at a depth d below the earth's surface. If g_(1)=g_(2),h lt lt R and d lt lt R then

Rate of change of weight near the earth 's surface varies with height h as

Rate of change of weight near the earth's surface varies with height h as