Planet A has massa M and radius R. Plane...

Planet A has massa M and radius R. Planet B has half the mass and half the radius of Planet A.If the escape velocities from the Planets A and B are `v_(A) and v_(B),` respectively , then `(v_(A))/(v_(B))=n/4.` The vlaue of n is :

Similar Questions

Explore conceptually related problems

Planet A has a mass and radius twice that of Planet B. The escape velocity from Planet A is

The radius of a planet is double that of earth but their average are the same. If the escape velocities at the planet and the earth are v_(p) and v_( e) respectively , then prove that v_(p) = 2 v_(e) .

The radius of a planet is double that of the earth but then average densities are the same. If the escape velocities at the planet and at the earth are v_(P) and v_(E) respectively, then prove that v_(P)=2 v_(E).

The radius of a planet is double than that of the earth but their average densities are the same. If the escape velocities of the planet and the earth are v_p and v_e respectively, then prove that v_p=2v_e .

The radius of a planet is twice that of the earth but its average density is the same. If the escape speed at the planet and at the earth are v_(p) and v_(e) , respectively, then prove that v_(p)=2v_(e)

A planet has mass equal to mass of the earth but radius one fourth of radius of the earth . Then escape velocity at the surface of this planet will be

The escape velocities on the surface of two planets of masses m_1 and m_2 and having same radius v_1 and v_2 respectively . Then

Planet A has massa M and radius R. Planet B has half the mass and half the radius of Planet A.If the escape velocities from the Planets A and B are `v_(A) and v_(B),` respectively , then `(v_(A))/(v_(B))=n/4.` The vlaue of n is :

Similar Questions

Recommended Questions