Mass M is divided into two parts xm and `(1 - x)m`. For a given separation, the value of `x` for which the gravitational attraction between the two pieces 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?

If the distance between two masses is doubled, gravitational attraction between them

If the distance between two masses is doubled, then the gravitational attraction between them will be

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 ?

Two particles of mass m_(1) and m_(2) , approach each other due to their mutual gravitational attraction only. Then

If two objects of masses 500kg and 84kg resprecitvley are at a distance of 2m apart from each other.Find gravitational force between them?

Statement-1 : Two soild sphere of radius r and 2r , made of same material, are kept in contact. The mutual grvitational force to attraction between them is proportional to 1//r^(4) . Statement-2 : Gravitational attraction between two point mass bodies varies inversely as the square of the distance between them.

A charge of 0.8 coulomb is divided into two charges Q_1 and Q_2 . These are kept at a separation of 30 cm. the force on Q_1 is maximum when

A spherical shell is cut into two pieces along a chord as shown in the figure. P is a point on the plane of the chord. The gravitational field at P due to the upper part is I_(1) , and that due to the lower part is I_(2) . What is the relation between them?