# Your question: Is an electric field a vector quantity if yes then what is its direction?

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Electric field intensity is a vector quantity. Its direction is same as that of the force on a unit positive test charge.

## Is electric field a vector quantity what will be its direction?

Electric field strength is a vector quantity; it has both magnitude and direction. The magnitude of the electric field strength is defined in terms of how it is measured.

## What is electric field and its direction?

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.

## Is the electric field a vector?

The electric field E ⃗ vec E E E, with, vector, on top is a vector quantity that exists at every point in space. The electric field at a location indicates the force that would act on a unit positive test charge if placed at that location.

## Does electric field have direction?

Because an electric field has both magnitude and direction, the direction of the force on a positive charge is chosen arbitrarily as the direction of the electric field. Because positive charges repel each other, the electric field around an isolated positive charge is oriented radially outward.

## Is electric field a scalar quantity?

No, electric field is not a scalar. The electric is a vector quantity. We know that electric field is the ratio of force per unit test charge. Since, force is a vector quantity, electric field is also a vector quantity.

## Why is electric field considered a vector quantity?

A vector quantity is one that has both magnitude and direction. … To be concluded, electric field has both magnitude and direction which are the standards to be defined as a vector quantity. Hence, an electric field is a vector quantity.

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

The direction of the electric field is always directed in the direction that a positive test charge would be pushed or pulled if placed in the space surrounding the source charge. Since electric field is a vector quantity, it can be represented by a vector arrow.

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

For example, if you place a positive test charge in an electric field and the charge moves to the right, you know the direction of the electric field in that region points to the right.

## What is the direction of the electric field at a point directly to the left of a positive charge?

The electric field points to the left because the force on a negative charge is opposite to the direction of the field. The electric field points to the right because the force on a negative charge is in the same direction as the field.

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## What is the direction of an electric field produced by a positively charged particle?

Electric field of positive point charge: The electric field of a positively charged particle points radially away from the charge. Electric field of negative point charge: The electric field of a negatively charged particle points radially toward the particle.

## What is the direction of the electric field at the position of Q 1 produced by Q 2?

The direction is away positive charge, and toward a negative one. At the origin, q1 will produce an E-field vector that points left, and q2 gives an E-field vector to the right.