The Electric Lines Of Force Enter Into Any Surface At Which Degree

Electric flux property of an electric field that may be thought of as the number of electric lines of force or electric field lines that intersect a given area.

The electric lines of force enter into any surface at which degree.

The electric lines of force in same direction repel each other. 3 electric lines of force can never intersect each other. Electric field lines are considered to originate on positive electric charges and to terminate on negative charges. The electric lines of force never cross each other or intersect at a common point because if they did it would mean two different directions of the electric field at the point of intersection which is impossible.

They always emerge or terminate normally on the surface of a charged conductor while magnetic lines of force start or terminate on the surface of a magnetic material at any angle. Comparison of electric and magnetic lines of force. For example in figure 1 a charged spherical conductor can replace the point charge and the electric field and potential surfaces outside of it will be unchanged confirming the contention that a spherical charge distribution is equivalent to a point charge at its center. Field lines directed into a closed surface are considered negative.

Electric lines of force can only contract longitudinally. Electric lines of force are imaginary lines. Each electric line of force emanates normally from the surface of the charge body. More abstractly lines of force are lines in any such force field the tangent of which at any point gives the field direction at that point and the density of which gives the.

Line of force in physics path followed by an electric charge free to move in an electric field or a mass free to move in a gravitational field or generally any appropriate test particle in a given force field. A tube of force also called a tube of electrostatic induction or field tube are the lines of electric force which moves so that its beginning traces a closed curve on a positive surface its end will trace a corresponding closed curve on the negative surface and the line of force itself will generate an inductive tubular surface. Electric lines of force never form closed loops while magnetic lines of force are always closed loops. Because a conductor is an equipotential it can replace any equipotential surface.

2 the electric lines of force always enter or leave the charged surface normally. Electric lines of force can expand laterally. The electric lines of force in opposite. It is important because the tangent drawn at any point on a line of force gives the direction of the electric field at that point.

No two electric lines of force cross each other. Those directed out of a closed surface are positive.