You need the magnitude and the distance for defining the vector quantity
To define a vector quantity, you need both magnitude (size or length) and direction. For example, in physics, velocity is a vector quantity that requires both the speed (magnitude) and the direction in which an object is moving to be fully described.
To define a vector quantity, you need both magnitude (the numerical value) and direction. This combination of magnitude and direction is what distinguishes vector quantities from scalar quantities, which only have magnitude.
You'll need to provide a context. In naval engineering, displacement is a scalar quantity; if you're talking about motion, then it's a vector quantity.
A scalar quantity added to a vector quantity is a complex quantity. An example is a complex number z = a + ib, a is the scalar and ib is the vector quantity.If the vector quantity is 3 dimensional, ib + jc + kd, then the scalar and vector forms a quaternion quantity.
A magnitude, and a direction. Or, components in two directions, often called "x-component" and "y-component".
To define a vector quantity, you need both magnitude (size or length) and direction. For example, in physics, velocity is a vector quantity that requires both the speed (magnitude) and the direction in which an object is moving to be fully described.
To define a vector quantity, you need both magnitude (the numerical value) and direction. This combination of magnitude and direction is what distinguishes vector quantities from scalar quantities, which only have magnitude.
You'll need to provide a context. In naval engineering, displacement is a scalar quantity; if you're talking about motion, then it's a vector quantity.
You'll need to provide a context. In naval engineering, displacement is a scalar quantity; if you're talking about motion, then it's a vector quantity.
A scalar quantity added to a vector quantity is a complex quantity. An example is a complex number z = a + ib, a is the scalar and ib is the vector quantity.If the vector quantity is 3 dimensional, ib + jc + kd, then the scalar and vector forms a quaternion quantity.
To specify a vector, you need a length (or magnitude), and a direction.
A magnitude, and a direction. Or, components in two directions, often called "x-component" and "y-component".
There is a big difference between Scalar and vector quantity. Vector quantity means something where direction is not important.eg- Displacement(the shortest distance between the displacement points of an object). whereas in scalar quantity Direction is important. eg. Speed
A vector quantity is a physical quantity that has magnitude and direction, such as velocity, force, and acceleration. This means that in addition to knowing the size of the quantity, you also need to know the direction in which it is acting.
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No, mph (miles per hour) is a scalar quantity, not a vector quantity. Scalar quantities have magnitude only, while vector quantities have both magnitude and direction. In the case of mph, only the speed or magnitude is specified, not the direction.
Force is considered a vector quantity because it has both magnitude and direction. This means that in order to fully describe a force, you need to know not only how strong it is, but also in which direction it is acting.