# How is an electric field different if the field lines are closer together?

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Lines are closer together where the field is stronger. Larger charges have more field lines beginning or ending on them. Electric Field lines never cross (since E must point in a definite direction unless it is zero).

## What does it mean when the electric field lines are close together?

A line tangent to a field line indicates the direction of the electric field at that point. Where the field lines are close together, the electric field is stronger than where they are farther apart.

## What will happen to the field strength when field lines are closer together?

Electric field lines point away from positive charges (like charges repel) and towards negative charges (unlike charges attract). Field lines are drawn closer together where the field is stronger. Field lines do not touch or cross each other. … The greater the magnitude of the charge, the stronger its electric field.

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## Is electric field stronger when closer?

In other words, the spacing between electric field lines decreases as we get closer and closer in. According to our proposition, this means that the electric field strength is also getting higher and higher as we get closer into the charge.

## How do the electric field lines change as two charges are brought closer together?

What occurs when two charges are moved closer together? The electric field doubles. … The force between the charges increases. The force between the charges increases.

## Do electric field lines cross each other?

Electric field lines never cross each other. Electric field lines are most dense around objects with the greatest amount of charge. At locations where electric field lines meet the surface of an object, the lines are perpendicular to the surface.

## Why do electric field lines never cross each other?

Electric field lines always point in one direction, at any point. When two lines intersect each other, tangents are drawn at that point indicating two directions of electric field lines, which is impossible therefore electric field lines cannot cross over each other.

## How do the field lines show the field is stronger near the electrodes?

The direction of the field line at a point is the direction of the field at that point. The relative magnitude of the electric field is proportional to the density of the field lines. Where the field lines are close together the field is strongest; where the field lines are far apart the field is weakest.

## How are magnetic field lines different from electrostatic field lines?

Answer: The electric field line induces on a positive charge and extinguishes on a negative charge, whereas the magnetic field line generates from a north pole and terminate to the south pole of the magnet. The electric field lines do not form a loop whereas the magnetic field lines form a closed loop.

## Are electric field lines continuous?

Yes, the electrostatic field line is a continuous curve because a unit charge always experiences a continuous force when it is placed in an electrostatic field. The unit charge is the charge that passes through the cross-section of an electric conductor that carries one ampere of current in one second.

## Why is the electric field stronger where the lines are closer?

Moving directly along the electric field lines will give you the most rapid change of the potential, as motion perpendicular to the electric field requires no work and thus does not contribute to any change in the potential. Thus, the electric field is strongest where the equipotentials are closest together.

## What is the relation between electric field and force?

The electric field at a location indicates the force that would act on a unit positive test charge if placed at that location. The dimensions of electric field are newtons/coulomb, N/Cstart text, N, slash, C, end text. For a positive q, the electric field vector points in the same direction as the force vector.

## What is the difference between the field lines around a charge and the arrows coming out of the puck?

Positive charges repulse and negative charges attract. … The arrows show the field around the charge, which you can use to direct the puck.

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