As we go from one planet to another planet will (a) the mass and (b) weight of a body changes.

g_(e) and g_(p) denote the acceleration due to gravity on the surface of the earth and another planet whose mass and radius are twice as that of earth. Then

A body of mass 500 g is thrown upwards with a velocity 20 ms^-1 and reaches back to the surface of a planet after 20 sec . Then the weight of the body on that planet is (Assume g to be constant) xN. Find x.

STATEMENT-1 : Assuming sun to be a body of very large mass in comparison to all other planets, the angular momentum of all the planets about the sun remains conserved. because STATEMENT-2 : Gravitational force is always conservative.

A space vehicle approaching a planet has a speed v when it is very far from the planet At that moment tangent of its trajectory would miss the centre of the planet by distance R if the planet has mass M and radius r what is the smallest value of R in order that the resulting orbit of the space vehicle will just miss the surface of the planet?

Gas escaps from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors : I. Mass of the planet II. Mass pf the particle escaping III. Temperature of the planet IV. Radius of the planet Select the correct answer from the codes given below.

"We cannot hear the explosions on other planets." Why?

The ratio of the weight of a body on the Earth’s surface to that on the surface of a planet is 9 : 4. The mass of the planet is 1/9 of that of the Earth. If ‘R’ is the radius of the Earth, then the radius of the planet is where n is ___________ . (Take the planets to have the same mass density)

The time of revolution of planet A round the sun is 8 times that of another planet B . The distance of planet A from the sun is how many times the distance of B from the sun

Two planets have masses M and 16 M and their radii are a and 2a, respectively. The separation between the centres of the planets is 10a. A body of mass m is fired trom the surface of the larger planet towards the samller planet along the line joining their centres. For the body to be able to reach at the surface of smaller planet, the minimum firing speed needed is :

Derive an expression for the escape velocity of a body from any planet.