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<br>If Dimension > #No of vectors ⇔ cannot span ⇔ is not a basis | <br>If Dimension > #No of vectors ⇔ cannot span ⇔ is not a basis | ||
− | If #No of vectors > Dimension -> it | + | If #No of vectors > Dimension -> it is not a basis. |
If #No of vectors = Dimension -> it has to be linearly independent to span<span class="texhtml"></span> | If #No of vectors = Dimension -> it has to be linearly independent to span<span class="texhtml"></span> | ||
[[Category:MA265Spring2011Momin]] | [[Category:MA265Spring2011Momin]] |
Revision as of 09:30, 1 May 2011
Tricks for checking Linear Independence, Span and Basis
Note: For this article, I am assuming number of vectors is equal to the dimension of the vector space for calculating the determinant. If it is not, you need to do rref.
Linear Independence
If det(vectors) != 0 ⇔ linearly independent
If end result of the rref(vectors) gives an identity matrix, it is linearly independent
If det(vectors) = 0 ⇔ linearly dependent
If end result of the rref(vectors) gives you a parameter in the equation, the vectors are linearly dependent.
Tip: If #No of vectors > Dimension ⇔ it is linearly dependent
Span
If Dimension > #No of vectors -> it CANNOT span
If det(vectors) != 0 ⇔ it spans
If end result of the rref(vectors) gives you a matrix with all rows having leading 1's, it spans. For example: $ rref(\left( \begin{smallmatrix} 1&2&3\\ 2&3&4 \end{smallmatrix} \right)) = \left( \begin{smallmatrix} 1&0&-1\\ 0&1&2 \end{smallmatrix} \right) $ spans R2
If det(vectors) = 0 ⇔ does not span
If end result of the rref(vectors) gives you a matrix with not all rows having a leading 1, it does not span.
Basis
If Dimension > #No of vectors ⇔ cannot span ⇔ is not a basis
If #No of vectors > Dimension -> it is not a basis.
If #No of vectors = Dimension -> it has to be linearly independent to span