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If all the components of a vector are zero, the magnitude of the vector will always be zero.
If the sum of the squares of the vector's components is ' 1 ',then the vector's magnitude is ' 1 '.
A unit vector has a length (magnitude) equal to 1 (one unit). A rectangular vector is a coordinate vector specified by components that define a rectangle (or rectangular prism in three dimensions, and similar shapes in greater dimensions). The starting point and terminal point of the vector lie at opposite ends of the rectangle (or prism, etc.).
No, by definiton, a unit vector is a vector with a magnitude equal to unity.
The magnitude of a vector is a geometrical value for hypotenuse.. The magnitude is found by taking the square root of the i and j components.
If the components are in the i and j directions, for example, then if the vector is mi + nj then the coefficients m and n can be used to find the magnitude and direction.The magnitude is the hypotenuse of a right triangle with legs m and n, so it is sqrt(m² + n²).
The components of a vector are magnitude and direction.
The components of a vector are magnitude and direction.
If all the components of a vector are zero, the magnitude of the vector will always be zero.
If the sum of the squares of the vector's components is ' 1 ',then the vector's magnitude is ' 1 '.
A unit vector has a length (magnitude) equal to 1 (one unit). A rectangular vector is a coordinate vector specified by components that define a rectangle (or rectangular prism in three dimensions, and similar shapes in greater dimensions). The starting point and terminal point of the vector lie at opposite ends of the rectangle (or prism, etc.).
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.
A vector can be represented in terms of its rectangular components for example : V= Ix + Jy + Kz I, J and K are the rectangular vector direction components and x, y and z are the scalar measures along the components.
No, by definiton, a unit vector is a vector with a magnitude equal to unity.
No.
The vector magnitude and direction or the components of the vector.
The magnitude of a vector is a geometrical value for hypotenuse.. The magnitude is found by taking the square root of the i and j components.