It can be both true or false - you can treat distance as a scalar, or as a vector. If you say that (say) the distance from the cities of Cochabamba and Quillacollo is 13 kilometers - WITHOUT specifiying the direction - then it is a scalar. If you also say that Quillacollo is to the east of Cochabamba, then it is a vector.
Yes, that's correct. A vector quantity has both magnitude and direction, while a scalar quantity only has magnitude. Examples of vector quantities include force, velocity, and displacement, while examples of scalar quantities include mass, time, and temperature.
A vector quantity is a physical quantity that has both magnitude and direction, such as velocity, force, and acceleration. Vectors are commonly represented in physics using arrows, with the length representing the magnitude and the direction indicating the specific orientation of the quantity.
The resultant vector of adding two vectors is a displacement vector, not a distance vector. Displacement is a change in position measured from the starting point to the end point, while distance is the total length of the path traveled.
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.
Displacement is a vector quantity because it has both magnitude (distance) and direction.
direction
'Force' is a vecter quanity.
Yes, it is.
It is a scalar quantity unless you define direction, then it becomes a vector quantity.
Yes, that's correct. A vector quantity has both magnitude and direction, while a scalar quantity only has magnitude. Examples of vector quantities include force, velocity, and displacement, while examples of scalar quantities include mass, time, and temperature.
Displacement is a vector quanity that measures the difference between final position and initial position. Distance is a scalar quanity the measures the total length traveled. For example, imagine you begin stationary at any location and walk along the outline of a 100ft circumference circle, returning you to your starting location. Your distance traveled will be 100 feet, your displacement will be 0 due to your initial position and final position being identical.
An acceleration index is a vector quanity, which is defined as the rate at which a defined object changes its velocity.
Yes, two vectors of similar kind can be added. For example we can add a distance vector with another distance vector. But we cannot add distance vector and velocity vector.
Distance vector routing is used when the network is simple and has no hierarchical design. Examples of distance vector routing protocols are RIP and IGRP.
A vector quantity is a physical quantity that has both magnitude and direction, such as velocity, force, and acceleration. Vectors are commonly represented in physics using arrows, with the length representing the magnitude and the direction indicating the specific orientation of the quantity.
true the distance from point A to point B on a grid = vector
A vector is like an arrow. It points in the relevant direction and its length is a measure of the distance.