A radius (or radial) vector is a vector which goes through the origin. That is going directly away from (or toward) the origin. A vector that is not radial is a transverse vector
it is the distance between what an object is orbiting around and the object itself in any given point
the main definition of diameter is the measurement of straight down the middle of a circle or some other shapes but mainly circles
Orthogonal signal space is defined as the set of orthogonal functions, which are complete. In orthogonal vector space any vector can be represented by orthogonal vectors provided they are complete.Thus, in similar manner any signal can be represented by a set of orthogonal functions which are complete.
2 linear vectors sharing a concentric origin, or 1 linear vector sharing a concentric origin with a mass having all contributing vectors sharing a concentric origin in alignment. The set of vectors is limited, as any noncollinear influence nullifies without a simultaneous exact opposition
scalar has only a magnitude vector has both magnitude and direction
A vector is a quantity with both a direction and magnitude
The normal vector to the surface is a radius at the point of interest.
The vorticity vector is DelxV = v/r sin(RV)H1, the Curl of the vector V. The unit vector H1, is perpendicular to the plane formed by the radius vector R and and the vector V.
the radius vector; and the vectorial angle the radius vector; and the vectorial angle
radius vector
In vector format, the moment can be defined as the cross product between the radius vector, r (the vector from point O to the line of action), and the force vector.
Yes. It results in a force that has a magnitude and a direction, and this is the definition of a force vector.
t = r X F, where t is torque, r is displacement, and F is force; all quantities are vectors. Because the formula contains a cross product, the magnitude of the torque is given by the expression rFsin(θ), where θ is the angle between the position vector and the force vector.
You might apply the basic definition of "vector versus scalar".
It is the direction of the vector representing the force.
It is the direction of the vector representing the force.
Given the vector in angle-radius form? y-component=r sin(theta), x-component=r cos(theta)