The gravitational field in a region is givne by `vecE= (3hati - 4hatj)N//kg` Find out the work done (in joule) in displacting a particle of mass `1kg 1m` along the line `4y = 3x + 9` .

The gravitational field in a region is given by vecE = (3hati- 4hatj) N kg^(-1) . Find out the work done (in joule) in displacing a particle by 1 m along the line 4y = 3x + 9 .

The gravitational field in a region is given by vecE = (3hati- 4hatj) N kg^(-1) . Find out the work done (in joule) in displacing a particle by 1 m along the line 4y = 3x + 9 .

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 field in a region is given by vec(g)=(2hat(i)+3hat(j)) N/kg. The work done in moving a particle of mass 1 kg from (1, 1) to (2, (1)/(3)) along the line 3y + 2x = 5 is

The gravitational field in a region is given by vecE=(yhati+ xhatj) N/kg, where x and y are in metres. The equipotential lines are plotted as

The gravitational field in a region is given by vecE=(10Nkg^-1)(veci+vecj) . Find the work done by an external agent to slowly shift a particle of mass 2 kg from the point (0,0) to a point (5m,4m)

The gravitational field in a in region is given by vecg = (4hati + vecj) N//kg . What done by this field is zero when the particle is moved along the line :

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 = 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=-(20Nkg^(-1))(hati+hatj) . Find the gravitational potential at the origin (0,0) in J kg^(-1)