Mass M is divided into two parts `m_1`, and `m_2`, For a given separation the ratio of `m_1/M` for which the gravitational attraction between the two parts becomes maximum is

Mass M=1 unit is divided into two parts X and (1-X) . For a given separation the value of X for which the gravitational force between them becomes maximum is

A mass M is broken into two parts of masses m_(1) and m_(2) . How are m_(1) and m_(2) related so that force of gravitational attraction between the two parts is maximum?

A mass M is broken into two parts of masses m_(1) and m_(2) . How are m_(1) and m_(2) related so that force of gravitational attraction between the two parts is maximum?

Mass M is split into two parts m and (M-m) , which are then separated by a certain distance. What is the ratio of (m//M) which maximises the gravitational force between the parts ?

A double star is a system of two stars of masses m and 2m , rotating about their centre of mass only under their mutual gravitational attraction. If r is the separation between these two stars then their time period of rotation about their centre of mass will be proportional to

Write an expression for the gravitational force of attraction between two bodies of masses m_1 and m_2 separated by a distance r .

A praticle of mass M at rest decays into two particle of masses m_1 and m_2 , having non-zero velocities. The ratio of the de Broglie wavelength of the particles (lamda_1)/(lamda_2) is

Two particles of masses m_1 and m_2 , m_1 gt m_2 move in circular paths under the action of their gravitational attraction. While doing so, their separation remains constant and equals ‘r’. Radius of circular path of m_2 is:

Two particles of masses m and 3m are moving under their mutual gravitational force, around their centre of mass, in circular orbits. The separation between the masses is r. The gravitational attraction the two provides nessary centripetal force for circular motion The ratio of the potential energy to total kinetic energy of the system is -2 -1 1 2

Assertion : The centres of two cubes of masses m_(1) and m_(2) are separated by a distance r. The gravitational force between these two cubes will be (Gm_(1)m_(2))/(r^(2)) Reason : According to Newton's law of gravitation, gravitational force between two point masses m_(1) and m_(2) separated by a distance r is (Gm_(1)m_(2))/(r^(2)) .