Two masses `90 kg` and `160 kg` are at a distance `5 m` apart. Compute the magnitude of intensity of the gravitational field at a point distance `3 m` from the `90 kg` and `4m` from the `160 kg` mass. `G=6.67xx10^(-11)kg^(-2)`

Two masses, 800 kg and 600 kg, are at a distance 0.25 m apart. Compute the magnitude of the intensity of the gravitational field at a point distant 0.20 m from the 800 kg mass and 0.15 m from the 600 kg mass.

Two masses 800 kg and 600 kg are at a distance 25 cm apart. Compute the magnitude of the intensity of the gravitational field at a point disatnce 20 cm from the 800 kg mass and 15 cm frm the 600 kg mass G = 6.66 xx 10^(-11) Nm^(2) kg^(-2) .

Two masses 600 kg and 800 kg are separated by a distance of 0.2 m. What will be te magnitude of the intensity of the gravitational field at a point distant 0.16m from the 600 kg mass and 0.12 from the 800 kg mass.

Two masses, 800 kg and 600 kg are at a distance 0.25 m apart. The magnitude of total force experienced by a body of mass 1 kg placed at a point distance 0.2 m from the 800 kg mass 0.15 m from the 600 kg mass :

Two bodies of masses 50 kg and 100 kg are at a distance 1m apart. The intensity of gravitational field at the mid-point of the line joining them is (in joules)

Two bodies of masses 10 kg and 1000 kg are at a distance 1 m apart. At which point on the line joining them will the gravitational field-intensity be zero ?

Two point masses of mass 10 kg and 1000 kg are at a distance 1 m apart. At which points on the line joining them, will the gravitational field intensity be zero ?

Two masses 90kg and 160 kg are 5m apart. The gravitational field intensity at a point 3m from 90kg and 4m from 160 kg is

There are two bodies of masses 100 kg and 1000 kg separated by a distance 1m . The intensity of gravitational field at the mid point of the line joining them will be