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Vector addition derives a new vector from two or more vectors, and vector resolution is breaking a vector down into its two or more components.
No. The components of a vector will change based on what coordinate system is used to express that vector.
Yes.
It is the other way round - it's the vector that has components.In general, a vector can have one or more components - though a vector with a single component is often called a "scalar" instead - but technically, a scalar is a special case of a vector.
Unless the vector is one dimensional, or only valued along one base in a multidimensional space, in which case the magnitude is equal to it's components, a vector's magnitude has to be greater than its components.
resolution of vector
If a vector is broken up into components the angle between the components is 90 degrees.
Vector addition derives a new vector from two or more vectors, and vector resolution is breaking a vector down into its two or more components.
The components of a vector are magnitude and direction.
The components of a vector are magnitude and direction.
Ans :The Projections Of A Vector And Vector Components Can Be Equal If And Only If The Axes Are Perpendicular .
That all depends on the angles between the vector and the components. The only things you can say for sure are: -- none of the components can be greater than the size of the vector -- the sum of the squares of the components is equal to the square of the size of the vector
If all the components of a vector are zero, the magnitude of the vector will always be zero.
prrpendicular projections of a vector called component of vector
decomposition of a vector into its components is called resolution of vector
No. The components of a vector will change based on what coordinate system is used to express that vector.
NO, a vector will not be zero if one of its components will be zero.