06-240/Classnotes For Thursday, September 28: Difference between revisions

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===Scan of Lecture notes===
*Image file: week 3 lecture
** note1[[http://i98.photobucket.com/albums/l269/uhoang/1.jpg]]
** note2:[[http://i98.photobucket.com/albums/l269/uhoang/2.jpg]]
* PDF file by [[User:Alla]]: [[Media:MAT_Lect006.pdf|Week 3 Lecture 2 notes]]
* PDF file by [[User:Gokmen]]: [[Media:06-240-Lecture-28-september.pdf|Week 3 Lecture 2 notes]]

===Scan of Tutorial notes===

* PDF file by [[User:Alla]]: [[Media:MAT_Tut003.pdf|Week 3 Tutorial notes]]
* PDF file by [[User:Gokmen]]: [[Media:06-240-tutorial-28-september.pdf|Week 3 Tutorial notes]]

===Linear Combination===
===Linear Combination===
Definition: Let (''u''<sub>i</sub>) = (''u''<sub>1</sub>, ''u''<sub>2</sub>, ..., ''u''<sub>n</sub>) be a sequence of vectors in V. A sum of the form<br>
::''a''<sub>i</sub> <math> \in </math> F, <math>\sum_{i=1}^n</math> ''a''<sub>i</sub>''u''<sub>i</sub> = ''a''<sub>1</sub>''u''<sub>1</sub> + ''a''<sub>2</sub>''u''<sub>2</sub>+ ... +''a''<sub>n</sub>''u''<sub>n</sub>


<math>\mbox{Definition: Let }(u_i) = (u_1,u_2,\ldots,u_n)\mbox{ be a sequence of vectors in }V</math>.
is called a "Linear Combination" of the ''u''<sub>i</sub>.

<math>\mbox{A sum of the form:}{}_{}^{}</math>

<math> a_i\in F,\sum_{i=1}^n a_i u_i = a_1u_1 + a_2u_2+\ldots+a_nu_n</math>

<math>\mbox{is called a Linear Combination of the }u_i^{ }</math>.

===Span===
<math>\mbox{span}(u_i^{ }):= \lbrace\mbox{ The set of all possible linear combinations of the } u_i^{ }\rbrace</math>

<math>\mbox{If }\mathcal{S} \subset V\ \mbox{ is any subset, }</math>

<math>\mbox{span}(\mathcal{S}):= \lbrace\mbox{The set of all linear combination of vectors in }\mathcal{S}\rbrace=\left\lbrace\sum_{i=0}^n a_i u_i,\quad a_i \in F, u_i \in \mathcal{S}\right\rbrace</math>

<math>\mbox{span}(\mathcal{S})\mbox{ always contains }0\mbox{ even if }\mathcal{S}=\emptyset</math>

'''Theorem'''
<math>\forall\mathcal{S} \subset V\mbox{, span}(\mathcal{S})\mbox{ is a subspace of }V</math>

<math>\mbox{Proof:}{}_{}^{}</math>

1. <math>0 \in\mbox{ span}(\mathcal{S})</math>.<br>
2. <math>\mbox{Let }x \in \mbox{ span}(\mathcal{S})\Rightarrow x =\sum_{i=1}^n a_iu_i\mbox{, }u_i\in \mathcal{S}\mbox{, }</math>

<math>\mbox{and let }y \in \mbox{ span}(\mathcal{S})\Rightarrow y =\sum_{i=1}^m b_iv_i\mbox{, }v_i\in \mathcal{S}</math>

<math>x+y = \sum_{i=1}^n a_iu_i+ \sum_{i=1}^m b_iv_i = \sum_{i=1}^{\mbox{max}(m,n)} c_iw_i</math>

<math>\qquad\mbox{ where }c_i=(a_1+b_1,a_2+b_2,\ldots,a_{\mbox{max}(m,n)}+b_{\mbox{max}(m,n)})\mbox{ and }w_i\in\mathcal{S}</math>

3.<math>cx= c\sum_{i=1}^n a_iu_i=\sum_{i=1}^n(ca_i)u_i\in\mbox{ span}(\mathcal{S})</math>


''Example''
1.

<math>\mbox{Let } P_3(\mathbb{R})=\lbrace ax^3+bx^2+cx+d\rbrace\subset P(\mathbb{R})\mbox{, where }a, b, c, d \in \mathbb{R}</math>.

<math>\begin{matrix}u_1^{}&=&x^3-2x^2-5x-3\\
u_2^{}&=&3x^3-5x^2-4x-9\\
v_{}^{}&=&2x^3-2x^2+12x-6\end{matrix}</math>

<math>\mbox{Let }W=\mbox{span}(u_1^{},u_2^{})\mbox{,}</math><br>

<br><math>\mbox{Does/Is } v \in W\mbox{ ?}</math>

<math>v\in W\mbox{ if it is a linear combination of span}(u_1^{},u_2^{})</math>

<math>v=a_1u_1 + a_2u_2 \mbox{ for some }a_1, a_2 \in \mathbb{R}</math><br>

<br><math>\mbox{If }\exists a_1,a_2\in \mathbb{R}</math>

<math>\begin{matrix}2x^3-2x^2+12x-6&=& a_1^{}(x^3-2x^2-5x-3) + a_2^{}(3x^3-5x^2-4x-9)\\
\ &=&(a_1^{}+3a_2^{})x^3 + (-2a_1^{}-5a_2^{})x^2 + (-5a_1^{}-4a_2^{})x + (-3a_1^{}-9a_2^{})\end{matrix}</math>

<math>\mbox{Need to solve}\begin{cases}
2=a_1^{}+3a_2^{}\\
-2=-2a_1^{}-5a_2^{}\\
12=-5a_1^{}-4a_2^{}\\
-6=-3a_1^{}-9a_2^{}\end{cases}</math>

<math>\mbox{Solve the four equations above and we will get }a_1^{}=-4\mbox{ and }a_2^{}=2</math>

<math>\mbox{Check if }a_1^{}=-4\mbox{ and }a_2^{}=2\mbox{ holds for all 4 equations.}</math>

<math>\mbox{Since it holds, } v\in W</math>

Latest revision as of 21:25, 24 October 2006

Scan of Lecture notes

  • Image file: week 3 lecture

Scan of Tutorial notes

Linear Combination

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Span

Theorem

1. .
2.

3.


Example 1.

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