Yes.
It has both velocity and direction. A vector has direction and magnitude.
The vector magnitude and direction or the components of the vector.
The components are 65 cos 101.7º and 65 sin 101.7º
A vector can be represented in terms of its rectangular components for example : V= Ix + Jy + Kz I, J and K are the rectangular vector direction components and x, y and z are the scalar measures along the components.
The magnitude of its Velocity (Speed), and its Direction. These are the components of the Arrow (Vector) that represents its MOTION.
The components of a vector are magnitude and direction.
The components of a vector are magnitude and direction.
It has both velocity and direction. A vector has direction and magnitude.
Then the resultant vector is reversed.
The direction of a vector is defined in terms of its components along a set of orthogonal vectors (the coordinate axes).
No, the magnitude of the vector will double, but its direction will remain the same.
The vector magnitude and direction or the components of the vector.
A magnitude (size) and a direction.
A vector comprises its components, which are orthogonal. If just one of them has magnitude and direction, then the resultant vector has magnitude and direction. Example:- If A is a vector and Ax is zero and Ay is non-zero then, A=Ax+Ay A=0+Ay A=Ay
The components are 65 cos 101.7º and 65 sin 101.7º
A vector can be represented in terms of its rectangular components for example : V= Ix + Jy + Kz I, J and K are the rectangular vector direction components and x, y and z are the scalar measures along the components.
Velocity is a vector. It is characterized by its magnitude and direction. The magnitude of the velocity vector is the speed. Speed is only a numerical value, it has no direction. Velocity vector can be broken down into its components while speed, being just a number, has no components.