14-240/Tutorial-December 2: Difference between revisions

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All we need to show is that <math>det(A) + det(B) = 0</math>. Assume that <math>B</math> is the matrix <math>A</math> with row <math>i</math> of <math>A</math> interchanged with row <math>i + 1</math> of <math>A</math>. Since the determinant of a matrix with two identical rows is <math>0</math>, then:
All we need to show is that <math>det(A) + det(B) = 0</math>. Assume that <math>B</math> is the matrix <math>A</math> with rows <math>i, i + 1</math> of <math>A</math> interchanged. Since the determinant of a matrix with two identical rows is <math>0</math>, then:




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:::::::<math>det(A) + det(B) = det\begin{pmatrix}...\\A_i\\A_{i + 1}\\...\end{pmatrix} + det\begin{pmatrix}...\\A_{i + 1}\\A_i\\...\end{pmatrix} =</math>
:::::::<math>det\begin{pmatrix}...\\A_i\\A_{i + 1}\\...\end{pmatrix} + det\begin{pmatrix}...\\A_{i + 1}\\A_i\\...\end{pmatrix} =</math>




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Then <math>det(A) + det(B) = 0</math> and <math>det(A) = -det(B)</math>.
Then <math>det(A) + det(B) = 0</math> and <math>det(A) = -det(B)</math>. The proof of the lemma is complete.


For the proof of the theorem, assume that <math>B</math> is the matrix <math>A</math> with rows <math>i, j</math> of <math>A</math> interchanged and <math>i \neq j</math>. By '''Lemma 1''', we have the following:


:::::::<math>det(A) =</math>


:::::::<math>det\begin{pmatrix}...\\A_i\\A_{i + 1}\\...\\A_j\\...\end{pmatrix} = (-1)det\begin{pmatrix}...\\A_{i + 1}\\A_i\\...\\A_j\\...\end{pmatrix} = (-1)^{j - i}det\begin{pmatrix}...\\A_{i + 1}\\...\\A_j\\A_i\\...\end{pmatrix} =</math>



:::::::<math>(-1)^{j - i}(-1)^{j - i - 1}det\begin{pmatrix}...\\A_j\\A_{i + 1}\\...\\A_i\\...\end{pmatrix} = (-1)^{2(j - i) - 1}det\begin{pmatrix}...\\A_j\\A_{i + 1}\\...\\A_i\\...\end{pmatrix} =</math>



:::::::<math>(-1)^{- 1}det\begin{pmatrix}...\\A_j\\A_{i + 1}\\...\\A_i\\...\end{pmatrix} = (-1)det\begin{pmatrix}...\\A_j\\A_{i + 1}\\...\\A_i\\...\end{pmatrix} =</math>



:::::::<math>-det(B)</math>.


Then the proof of the theorem is complete.


==Nikita==
==Nikita==
==Scanned Tutorial Notes by [[User Boyang.wu|Boyang.wu]]==
[[File:Tut.pdf]]

Latest revision as of 11:55, 9 December 2014

Boris

Theorem

Let be a matrix and be the matrix with two rows interchanged. Then . Boris decided to prove the following lemma first:

Lemma 1

Let be a matrix and be the matrix with two adjacent rows interchanged. Then .


All we need to show is that . Assume that is the matrix with rows of interchanged. Since the determinant of a matrix with two identical rows is , then:




.


Since the determinant is linear in each row, then we continue where we left off:




.


Then and . The proof of the lemma is complete.


For the proof of the theorem, assume that is the matrix with rows of interchanged and . By Lemma 1, we have the following:






.


Then the proof of the theorem is complete.

Nikita

Scanned Tutorial Notes by Boyang.wu

File:Tut.pdf