Two point masses each equal to 1 kg attract one another with a force of `9.8 ×10^(-9)` kg-wt. the distance between the two point masses is approximately `(G = 6.6 xx 10^(-11) "MKS units")`

Find the distance between each of the following pairs of the points.(v) T(-3,6), R(9,-10)

Two spheres, each of mass 625 kg, are placed with their centres 50 cm apart. The gravitational force between them is

If two objects of 45 kg and 47 kg respectively are attracted towards each other by a gravitational force fo 250xx10^-7 N,find the distance between their centres.

Solve the following examples / numerical problems: Find the magnitude of the gravitational force between the Sun and the earth.( Mass of the Sun =2xx10^30 kg, mass of the earth = 6xx10^24 kg and the distance between the centres of the Sun and the earth = 1.5xx 10^11 m, G =6.67 xx10^-11 N-m^2 /kg^2 ).

Three equal masses each of 1 kg are placed at vertices of an equilateral triangle of side 10m. Find the position of centre of mass.

The force of attraction between two unit point masses separated by a unit distance is numerically equal to

The force of attraction between two unit point masses separated by a unit distance is numerically equal to

The gravitational force of attraction between Earth and Venus, if the distance between them is 2.5xx10^(7) km, is [mass of Venus = 4.8xx1^(24) kg, mass of the Earth =6xx10^(24) kg

Two bodies of masses 1 kg and 2 kg, separated by 6 m are rotating about the centre of mass of the system. The moment of inertia of the system is

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.