09/29 - Analogy to Vector Spaces: Difference between revisions

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**<math> \hat v_1, \hat v_2, \hat v_3 </math> are the basis vectors
**<math> \hat v_1, \hat v_2, \hat v_3 </math> are the basis vectors
**A vector basis is a set of n linearly independent vectors capable of generating? an n-dimensional subspace? of <math>\real^n</math>
**A vector basis is a set of n linearly independent vectors capable of generating? an n-dimensional subspace? of <math>\real^n</math>

The dot (scalar) product takes two vectors over the real numbers and returns a real-valued scalar quantity. Geometrically, it will show the projection of one vector onto another.

Revision as of 12:46, 6 November 2008

Let the vector be defined as:

    • are the coefficients
    • are the basis vectors
    • A vector basis is a set of n linearly independent vectors capable of generating? an n-dimensional subspace? of

The dot (scalar) product takes two vectors over the real numbers and returns a real-valued scalar quantity. Geometrically, it will show the projection of one vector onto another.