Why Do Electric Field Lines Never Cross

Why Do Electric Field Lines Never Cross. Each line represents the specific magnitude of electric field as well its direction, so if two electric field lines are intersecting ea h other then we will have two different electric field at same point. If any two lines of electric field cross each other, then at the intersection point, there would be two tangents and hence two directions for electric field, which is not possible.

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Electric field is a vector and it satisfies laws of vector addition. The tangent to a line of electric field at any point gives the direction of the electric field at that point. Electric field lines are imaginary lines or curves that are meant to represent the electric field at various points along the curve.

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The short answer is if they did cross, they would represent a location with two different strong electric field vectors, something that can't exist in nature. Field lines represent the net force placed on a charge.

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Two field lines cross at that point the electric field intensity will be given by two different vectors. The short answer is if they did cross, they would represent a location with two different strong electric field vectors, something that can't exist in nature.

Examples If Field Lines Were To Cross.

If the two lines intersect, there will be two tangents and thus two directions of net electric field at that point which is not possible. Complete step by step answer: Hence, two field lines never cross each other.

The Short Answer Is If They Did Cross, They Would Represent A Location With Two Different Strong Electric Field Vectors, Something That Can't Exist In Nature.

Hence, two field lines never cross each other. (a) an electrostatic field line is a continuous curve because a charge experiences a continuous force when traced in an electrostatic field. That a test charge placed at that point could be experiencing a.

If Any Two Lines Of Electric Field Cross Each Other, Then At The Intersection Point, There Would Be Two Tangents And Hence Two Directions For Electric Field, Which Is Not Possible.

Electric field lines represent the direction of the electric force on a positive test change. This could never be the case. Visually the denser we draw the lines, the stronger the field is.

Think For A Moment About What Crossing Field Lines Would Mean:

It is like how two sets of waves can cross. Crossed field lines don't occur for the reason outlined below. The pass through each other.

If Electric Field Lines Crossed At The Crossing Location, Two Electric Field Directions Would Exist, Which Is Not Feasible.

Electric field lines are representation of electric field. Each line represents the specific magnitude of electric field as well its direction, so if two electric field lines are intersecting ea h other then we will have two different electric field at same point. Electric field lines are a representation of the direction of the force that will act on a positive charge placed at the point.