If a charge is released in electric field, will it follow lines of force ?

If a charge is placed at rest in an electric field, will its . path be along a line of force ? Discuss the situation when . the lines of force are straight and when they are curved.

If a charge is placed at rest in an electric field, will its . path be along a line of force ? Discuss the situation when . the lines of force are straight and when they are curved.

If a charge is placed at rest in an electric field, will its . path be along a line of force ? Discuss the situation when . the lines of force are straight and when they are curved.

Lorentz Force: If a charge +q is moving in an electric field E, it experiences a force qE called Lorentz electric force.If the charge q is moving in a magnetic field vecB , it experiences a force (vecvxxvecB) called Lorentz magnetic force. If charge q is moving in a n electric field E as well as in magnetic field vecB simultaneously, the total force experience by the charge is the sum of these two forces and is called total Lorentz force. If the charge is q is moving perpendicular to the magnetic field B, the work done by the magnetic field is

Lorentz Force: If a charge +q is moving in an electric field E, it experiences a force qE called Lorentz electric force.If the charge q is moving in a magnetic field vecB , it experiences a force (vecvxxvecB) called Lorentz magnetic force. If charge q is moving in a n electric field E as well as in magnetic field vecB simultaneously, the total force experience by the charge is the sum of these two forces and is called total Lorentz force. The direction of electric force is

For a unifrom electric field the lines of forces are

An electric dipole (AB) consisting of two particles of equal and opposite charge and same mass is released in an electric field. In the figure field lines are without considering effect of field of dipole. Angular acceleration of the dipole, immediately after it is released

Assertion : When a test charge is released in a uniform electric field, then it will moves along the fixed line passing through that point. Reason : The tangent at a point on the electric field gives the direction of the electric field at that point.

Whe a negative charge is releases and moves in electric field , it moves toward a position of -

An electric dipole (AB) consisting of two particles of equal and opposite charge and same mass is released in an electric field. In the figure field lines are without considering effect of field of dipole. The centre of mass of the dipole