The gravitational potential in a region is given by, `V = 200(X + Y) J//kg`. Find the magnitude of the gravitational force on a particle of mass `0.5 kg` placed at the origin.

The gravitational potential in a region is given by, V = 200(X + Y) J//kg . Find the magnitude of the gravitational force on a particle of mass 0.5 kg placed at the orgin.

The gravitational field in a region is given by vecE=(5Nkg^-1)veci+(12Nkg^-1)vecj. . a. find the magnitude of the gravitational force acting on a particle of mass 2 kg placed at the origin b. Find the potential at the points (12m,0) and (0,5m) if the potential at the origin is taken to be zero. c. Find the change in gravitational potential energy if a particle of mass 2 kg is taken from the origin to the point (12m,5m). d. 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 E = (2 hati + 3 hatj) N//kg . Find the work done by the gravitational filed when a particle of mass 1 kg is moved on the line 3y+ 2X = 5 from (1 m,1m) to (-2 m, 3m) .

The gravitational potential in a region by V = (20x + 40y)j/kg. Find out the gravitational field (in newton /kg) at a point co-ordinates (2,4). Also find out the magnitude of the gravitational force on a particle of 0.250 kg placed at the point (2,4) .

The gravitational field in a region is given by vec(E) = (5hat(i) + 12 hat(j))N//Kg . The change in gravitational potential energy if a particle of mass 1 kg is taken from the origin to the point (12m, 5m).

The gravitational field in a region is given by vecg=(5hati+12hatj)"N kg"^(-1) . The change in the gravitational potential energy of a particle of mass 2kg when it is taken from the origin to a point (7m, -3m) is

The gravitational potential in a region is given by V=20Nkg^-1(x+y) . A. Show that the equation is dimensionally correct b. Find the gravitational field at the point (x,y) Leave your answer in terms of the unit vector veci,vecj,veck . C. Calculate the magnitude of the gravitational fore on a particle of mass 500 g placed at the origin.

The gravitational potential due to a mass distrubution is given by V=(8x)/(x^(2)+p^(2)) . Find gravitational field at x = p.

Find the potential V at P in the gravitational field of fixed point mass M .

The gravitational field in a region is given by vecE=-(20Nkg^(-1))(hati+hatj) . Find the gravitational potential at the origin (0,0) in J kg^(-1)