A vector is described by magnitude and direction (a scalar has only magnitude).
A vector quantity (velocity, etc.)
A vector is described by magnitude and direction (a scalar has only magnitude).
A physical quantity that is specified by both magnitude and direction is a vector by definition.
Vector quantity
A vector is described by magnitude and direction (a scalar has only magnitude).
Vector quantities are those that must be described with both a magnitude and direction. Scalar quantities can be described with only a single value.
A vector quantity (velocity, etc.)
A vector is described by magnitude and direction (a scalar has only magnitude).
Yes
A vector.
A vector is a quantity described by size and direction. Mathematically, the square of a vector is negative, e.g. i^2 = -1, thus a quantity whose square is negative is a vector, e.g. 5i is a vector because (5i)^2 = -25.
EIGRP
use duct-tape
A physical quantity that is specified by both magnitude and direction is a vector by definition.
There is no maximum. A vector can be defined for a hyperspace with any number of dimensions. Such a hyperspace can be described using an orthogonal system of axes and the vector can be split into its components along each one of these axes.
Scalar quantities are defined as quantities that have only a mganitude. Vector quantities have magnitude and direction. Some example of this include Scalar Vector Mass Weight length Displacement Speed Velocity Energy Acceleration