A physical quantity that is specified by both magnitude and direction is a vector by definition.
The physical quantity that can be completely described by specifying both magnitude and direction is called a vector. Vectors are represented by arrows, where the length represents the magnitude and the direction represents the direction.
A vector is described by magnitude and direction (a scalar has only magnitude).
scalar
No, a vector is a quantity that is fully described by both magnitude and direction. Magnitude represents the size or amount of the vector, while direction indicates the orientation of the vector in space.
Scalar quantity is completely described by magnitude alone, without any direction. Examples include temperature, speed, and mass.
The physical quantity that can be completely described by specifying both magnitude and direction is called a vector. Vectors are represented by arrows, where the length represents the magnitude and the direction represents the direction.
A vector is described by magnitude and direction (a scalar has only magnitude).
scalar
scalar
Yes
No, a vector is a quantity that is fully described by both magnitude and direction. Magnitude represents the size or amount of the vector, while direction indicates the orientation of the vector in space.
Associates the direction taken with the speedAny quantity that has direction and magnitude associated with it is considered a vector quantity. An example of a vector quantity would be velocity. It must be expressed with reference to a direction.-aerol_
A Scalar Quantity is a physical quantity which has only magnitude and no direction associated with it . For eg,mass is a scalar quantity beause it has only magnitude (say 5 kg)but has no direction in which the magnitude acts towards.on the other hand a physical quantity which has both magnitude and direction is called a vector quantity.like weight is a vector quantity because it has magnitude along with direction(i.e. it always acts in the downward direction.
Scalar quantity is completely described by magnitude alone, without any direction. Examples include temperature, speed, and mass.
direction in space. It is represented by an arrow, where the length of the arrow represents the magnitude and the direction it is pointing represents the direction of the vector. Vectors are commonly used in physics to represent forces, velocities, and other physical quantities.
A quantity involving direction and magnitude is called physically vector A quantity involving direction and magnitude is called physically vector
A scalar quantity is something that only has magnitude and no direction. Any physical quantity that has both magnitude and direction, such as velocity or force, cannot be a scalar quantity.