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'''Note*''' If v1, v2,..., vk form a basis for a vector space V, then they must be distinct and nonzero.
 
'''Note*''' If v1, v2,..., vk form a basis for a vector space V, then they must be distinct and nonzero.
 
'''Note**''' The above definition not only applies to a finite set of vectors, but also to an infinite set of vectors in a vector space.
 
'''Note**''' The above definition not only applies to a finite set of vectors, but also to an infinite set of vectors in a vector space.
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===Example 1===
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Let <math>V = R^3</math>. The vectors

Revision as of 02:24, 10 December 2011


Basis

Definition: The vectors v1, v2,..., vk in a vector space V are said to form a basis for V if (a) v1, v2,..., vk span V and (b) v1, v2,..., vk are linearly independent. Note* If v1, v2,..., vk form a basis for a vector space V, then they must be distinct and nonzero. Note** The above definition not only applies to a finite set of vectors, but also to an infinite set of vectors in a vector space.

Example 1

Let $ V = R^3 $. The vectors

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Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva