The resultant vector must be greater than either of the two original vectors.

The resultant vector must be smaller than both original vectors.

The resultant vector could be smaller, equal to, or greater than either of the original vectors.

The resultant vector is always equal to the difference between the two vectors.

The direction is always along the longer of the two vectors.

The direction depends only on the angle between the two vectors.

The direction is along the vector with the larger horizontal component.

The direction is determined by both the magnitude and direction of the individual vectors.

To simplify the process of vector subtraction.

To analyze motion or forces in different directions independently.

To reduce the vector’s magnitude.

To eliminate the need for vector addition.

Vectors can be added together only if they have the same magnitude.

Vectors are fully described by both magnitude and direction.

Vectors can only point in two dimensions.

Vectors cannot be multiplied by scalars.

Their magnitudes are the same.

Their directions are the same or exactly opposite, regardless of magnitude.

They have equal horizontal components.

Their resultant vector is always greater than the individual magnitudes.

It will always be equal to the sum of the two forces.

The resultant force will have a direction that lies between the two forces.

The resultant force will point in the direction of the larger force.

The two forces will cancel each other out.

Scalars are described by direction, while vectors are described by magnitude.

Vectors require both magnitude and direction, while scalars only have magnitude.

Scalars can only be positive, while vectors can be positive or negative.

Vectors can only be added, while scalars can be added and multiplied.