A quantity that can be measured is a physical quantity. On the other hand multi dimensional quantities are explained by vector quantity.
Time distance temperature length volume and energy are also examples of scalar quantities.
Vector quantity and scalar quantity. The scalar quantity is described as the quantity that has only one characteristic i e. A scalar quantity is defined as the physical quantity that has only magnitude for example mass and electric charge. Scalar quantities explain one dimensional quantities.
Scalar quantities are those physical quantities that are expressed only by their magnitude whereas vector quantities require both magnitude and direction to. The electric charge also has only value and no direction. Based on the dependency of direction physical quantities can be classified into two categories scalar and vector.
While a vector quantity is associated with a measurement in terms of magnitude and direction. Other examples of vector quantities are displacement acceleration force momentum weight the velocity of light a gravitational field current and so on. On the other hand a vector quantity is defined as the physical quantity that has both magnitude as well as direction like force and weight.
The vector quantity is a physical quantity which needs both magnitude and direction to define it. Difference between scalar and vector quantity. Scalar is the measurement of a medium strictly in magnitude.
Let us now discuss what is the difference between scalar and vector. A physical quantity is something that can be measured. A scalar quantity defines the measurement in terms of magnitude only.
Therefore it represents a vector quantity. A scalar is a quantity which needs only its magnitude for complete expression. Scalar and vector quantities.
Let us discuss some difference here. Scalar quantities only have a magnitude. They are of two types i scalar quantities or scalars and ii vector quantities or vectors.
Vector is a measurement that refers to both the magnitude of the medium as well as the direction of the movement the medium has taken. A change in it will require only the change in its magnitude. Examples of scalar quantities.
Thus it is a scalar quantity. A vector is a quantity which needs both magnitude and direction for complete expression. Scalar and vector quantities.
A physical quantity is the measurable and quantifiable physical property that carries unique information with it. Scalar quantities possess one dimensional behavior whereas vector quantities can be either one two or three dimensional. Defining scalar and vector quantity.
There is no direction in mass but only value. Key differences between scalar and vector quantity. Here are a few scalar quantity examples that will help you to understand the concept better.