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# What are the rules for drawing electric field lines?

## What are the rules for drawing electric field lines?

Electric field lines

• Lines begin and end only at charges (beginning at + charges, ending at – charges) or at Infinity.
• 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 do the lines represent in an electric field diagram?

Electric field lines reveal information about the direction (and the strength) of an electric field within a region of space. If the lines cross each other at a given location, then there must be two distinctly different values of electric field with their own individual direction at that given location.

## What is the formula of electric field lines?

The electric field strength is exactly proportional to the number of field lines per unit area, since the magnitude of the electric field for a point charge is E=k|Q|r2 E = k | Q | r 2 and area is proportional to r2.

## What is electric field lines in physics?

An electric field line is an imaginary line or curve drawn through a region of empty space so that its tangent at any point is in the direction of the electric field vector at that point. The relative closeness of the lines at some place gives an idea about the intensity of electric field at that point.

## Where is the electric field most uniform?

Field-Line Patterns 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. If the lines are uniformly-spaced and parallel, the field is uniform.

## What makes an electric field uniform?

A uniform electric field is a field in which the value of the field strength remains the same at all points. In a uniform electric field, as the field strength does not change and the field lines tend to be parallel and equidistant to each other. They are equally spaced.

## How does electric field work?

Electric field is defined as the electric force per unit charge. The direction of the field is taken to be the direction of the force it would exert on a positive test charge. The electric field is radially outward from a positive charge and radially in toward a negative point charge.

## How do you know the direction of an electric field?

In the equation E=F/Q, ‘E’ and ‘F’ are vector quantities, meaning they have a direction. When ‘Q’ is a POSITIVE number (as it is when you have a POSITIVELY charged particle), the direction of the electric field is the same as the direction of the force experienced by the particle.

## What direction is electric field?

Electric field is a vector quantity whose direction is defined as the direction that a positive test charge would be pushed when placed in the field. Thus, the electric field direction about a positive source charge is always directed away from the positive source.

## Do electric fields actually exist?

Incidentally, electric fields have a real physical existence, and are not just theoretical constructs invented by physicists to get around the problem of the transmission of electrostatic forces through vacuums.

## How will a negatively charged particle initially at rest in an electric field tend to move?

Will a negatively charged particle, initially at rest in an electric field, tend to move toward a region of lower electric potential if released? Explain. Electric field points from higher potential to lower potential and negatively charged particle always moves towards higher potential.

## What is it called when two materials are rubbed together?

When two different materials are rubbed together, there is a transfer of electrons from one material to the other material. This causes one object to become positively charged (the electron loser) and the other object to become negatively charged (the electron gainer).

## How will the electrostatic force on two charged objects change if the distance is doubled?

The size of the force varies inversely as the square of the distance between the two charges. Therefore, if the distance between the two charges is doubled, the attraction or repulsion becomes weaker, decreasing to one-fourth of the original value.

## Will bits of paper be attracted to a charged rod?

Yes. The bits of paper become polarized because the atoms in the paper have formed dipoles. The side close to the charged rod has the opposite charge as the rod, thus is attracted to the rod.

## What is the electric charge of paper?

The bits of paper are electrically neutral, but when you bring the rod close to them, even though paper is not a conductor, that is, the charges within it are not free to move about as a current, the negative charges have enough mobility that they are repelled by the rod.

## Why does paper attract to a charged rod?

A positively charged rod is brought near a piece of paper. When the positively charged rod is brought near the neutral paper, it induces a negative charge on the side of the paper nearer to the rod. Since unlike charges attract each other, the paper will be attracted to the rod

## When you rub a plastic comb against your hair?

When two surfaces are rubbed together there is friction between them. Friction is a resistance against the movement of an object as a result of its contact with another object. This means that when you rubbed the plastic comb along your hair, your hair resisted the movement of the comb and slowed it down.

## Can a charged body attract an uncharged body?

Yes, a charged body attracts an uncharged body as the oppositely charged bodies attract each other. This is known as the force of attraction.

## Why do combs attract hair?

The comb, covered in negatively charged electrons, becomes negatively charged as well, and your hair is left with a positive charge. This “separation of charge” is the reason for the collection of effects we call static electricity. If two objects have different charges, they attract (or pull towards) each other.

## Is it necessary for a charged body to actually touch the ball?

Answer: it’s not necessary for a charged body actually to touch the ball of the electroscope for the leaves to diverge. When you touch the charged object with the ball, some electrons flow from the body to the ball and you can observe a deflection in the electroscope

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