The length of the arrow represents the magnitude.
That depends on what the vector, itself, represents. For example, if the vector represents velocity, then the magnitude of the vector represents speed. If the vector represents displacement, then the magnitude of the vector represents distance.
True
the answer is 12.
I think yes.now write it down
3 times the magnitude of the vector V - which is not known.3 times the magnitude of the vector V - which is not known.3 times the magnitude of the vector V - which is not known.3 times the magnitude of the vector V - which is not known.
That depends on what the vector, itself, represents. For example, if the vector represents velocity, then the magnitude of the vector represents speed. If the vector represents displacement, then the magnitude of the vector represents distance.
the magnitude and direction of the vector are given.
The term "speed" is commonly used to designate the magnitude of the velocity vector.
A vector is like an arrow. The length of the vector represents the magnitude (distance, speed, whatever) while the direction is shown by the direction of the arrow.A vector is like an arrow. The length of the vector represents the magnitude (distance, speed, whatever) while the direction is shown by the direction of the arrow.A vector is like an arrow. The length of the vector represents the magnitude (distance, speed, whatever) while the direction is shown by the direction of the arrow.A vector is like an arrow. The length of the vector represents the magnitude (distance, speed, whatever) while the direction is shown by the direction of the arrow.
True
its velocity, which is a vector.
A Burgers vector is a mathematical vector which represents the magnitude and direction of the distortion in a dislocation in a crystal lattice.
A Burgers vector is a mathematical vector which represents the magnitude and direction of the distortion in a dislocation in a crystal lattice.
A vector has two properties: magnitude and direction. The representation of a vector is an arrow. The tip of the arrow points to the direction the vector is acting. The length of the arrow represents the magnitude.
A diagram that represents the magnitude of direction's force.
the answer is 12.
The direction of the arrow represents the direction of the force; the length of the arrow is proportional to the magnitude of the force.