The gravitational field in a region is given by
`vecE=(5N*kg^(-1))hati+(12N*kg^(-1))hatj`
(ii) Find the potential at the points (12m, 0) and (0,5m) if the potential at the origin is taken to be zero.

The gravitational field in a region is given by vecE=(5N*kg^(-1))hati+(12N*kg^(-1))hatj (iv) Find the change in potential energy if the particle is taken from (12m,0) to (0,5m).

The gravitational field in a region is given by vecE=(5N*kg^(-1))hati+(12N*kg^(-1))hatj (iii) Find the change in gravitational potential energy if a particle of mass 2 kg is taken from the origin to the point (12m,5m).

The gravitational field in a region is given by vecE=(5N*kg^(-1))hati+(12N*kg^(-1))hatj (i) Find the magnitude of the gravitational force acting on a particle of mass 2kg placed at the origin.

All points lying inside the triangle formed by the points (1,3),(5,0) and (-1,2) satisfy

Find the moment about (1,-1,-1) of the force 3hati+4hatj-5hatk acting at (1,0,-2)

The electric potential V at any point (x, y, z) all in meters in space is given by V = 4x^(2)V . The electric field at the point (1,0,2) in V cdot m^(-1) is

0.1 M solution of a solute has a water potential of