Notes for AKT-140305/0:41:57: Difference between revisions

Latest revision as of 16:40, 30 July 2018

Showing that $(\ker f)^{*}=V^{*}/\mathrm {im} f^{*}$ for a linear map $f:V\rightarrow W,V\;\mathrm {and} \;W$ are vector spaces. (Leo algknt and Jesse had a discussion.)

Let $\iota :\ker f\rightarrow V$ be the inclusion of $\ker f$ into $V$ , then $V^{*}/\ker \iota ^{*}\cong (\ker f)^{*}$ .

We show that $\ker \iota ^{*}=\mathrm {im} f^{*}$ .

${\begin{aligned}\ker \iota ^{*}&=\{\phi \in V^{*}\;\;|\;\;\iota ^{*}(\phi )=0\}\\&=\{\phi \in V^{*}\;\;|\;\;\phi \circ \iota =0\}\\&=\{\phi \in V^{*}\;\;|\;\;\phi |_{\ker f}=0,\;\phi =f^{*}(\alpha ),\;\alpha \in W^{*}\}\\&=\{\phi \in V^{*}\;\;|\;\;\phi |_{\ker f}=0,\;\phi =\alpha \circ f,\;\alpha \in W^{*}\}\\&=\{f^{*}(\alpha )\in V^{*}\;\;|\;\;(\alpha \circ f)|_{\ker f}=0,\;\alpha \in W^{*}\}\\&=\mathrm {im} f^{*}.\end{aligned}}$

Revision as of 16:37, 30 July 2018 (view source) Leo algknt (talk \| contribs) No edit summary ← Older edit		Latest revision as of 16:40, 30 July 2018 (view source) Leo algknt (talk \| contribs) No edit summary
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	'''Showing that''' <math>(\ker f)^* = V^/\mathrm{im}f^</math> '''for a linear map''' <math>f : V \rightarrow W</math>. '''([[User:Leo algknt\|Leo algknt]] and Jesse had a discussion.)		'''Showing that''' <math>(\ker f)^* = V^/\mathrm{im}f^</math> '''for a linear map''' <math>f : V \rightarrow W, V\; \mathrm{and}\; W</math> '''are vector spaces'''. '''([[User:Leo algknt\|Leo algknt]] and Jesse had a discussion.)
	'''		'''

Notes for AKT-140305/0:41:57: Difference between revisions

Latest revision as of 16:40, 30 July 2018

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