Difference between revisions of "031 Review Part 2, Problem 3"

Revision as of 08:03, 11 October 2017

Let $B={\begin{bmatrix}1&-2&3&4\\0&3&0&0\\0&5&1&2\\0&-1&3&6\end{bmatrix}}.$

(a) Is $B$ invertible? Explain.

(b) Define a linear transformation $T$ by the formula $T({\vec {x}})=B{\vec {x}}.$ Is $T$ onto? Explain.

Foundations:
1. A matrix $A$ is invertible if and only if ${\text{det }}A\neq 0.$
2. A linear transformation $T$ given by $T({\vec {x}})=A{\vec {x}}$ where $A$ is a $m\times n$ matrix
if and only if the columns of $A$ span $\mathbb {R} ^{m}.$

Solution:

(a)

Step 1:
We begin by calculating ${\text{det }}B.$
To do this, we use cofactor expansion along the second row first and then the first column.
So, we have
${\begin{array}{rcl}\displaystyle {{\text{det }}B}&=&\displaystyle {3(-1)^{2+2}\left\|{\begin{array}{ccc}1&3&4\\0&1&2\\0&3&6\end{array}}\right\|}\\&&\\&=&\displaystyle {3\cdot 1\cdot (-1)^{1+1}\left\|{\begin{array}{cc}1&2\\3&6\end{array}}\right\|}\\&&\\&=&\displaystyle {3(6-6)}\\&&\\&=&\displaystyle {0.}\end{array}}$

Step 2:
Since ${\text{det }}B=0,$ we have that $B$ is not invertible.

(b)

Step 1:
If $T$ was onto, then $B$ spans $\mathbb {R} ^{4}.$
This would mean that $B$ contains 4 pivots.

Step 2:
But, if $B$ has 4 pivots, then $B$ would be invertible, which is not true.
Hence, $T$ is not onto.

Final Answer:
(a) Since ${\text{det }}B=0,$ we have that $B$ is not invertible.
(b) No, see explaination above.

Return to Sample Exam

@@ Line 32: / Line 32: @@
 {| class="mw-collapsible mw-collapsed" style = "text-align:left;"
 !Step 1: &nbsp;
+|-
+|We begin by calculating &nbsp;<math style="vertical-align: -1px">\text{det }B.</math>
+|-
+|To do this, we use cofactor expansion along the second row first and then the first column.
+|-
+|So, we have
 |-
 |
+&nbsp; &nbsp; &nbsp; &nbsp;<math>\begin{array}{rcl}
+\displaystyle{\text{det }B} & = & \displaystyle{3(-1)^{2+2}\left|\begin{array}{ccc}
+& 3 & 4 \\
+& 1  & 2 \\
+& 3 & 6
+         \end{array}\right|}\\
+&&\\
+& = & \displaystyle{3\cdot 1 \cdot (-1)^{1+1} \left|\begin{array}{cc}
+& 2 \\
+& 6
+         \end{array}\right|}\\
+&&\\
+& = & \displaystyle{3(6-6)}\\
+&&\\
+& = & \displaystyle{0.}
+\end{array}</math>
 |}
@@ Line 39: / Line 61: @@
 !Step 2: &nbsp;
 |-
-|
+|Since &nbsp;<math style="vertical-align: -4px">\text{det }B=0,</math>&nbsp; we have that &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; is not invertible.
 |}
@@ Line 47: / Line 69: @@
 !Step 1: &nbsp;
 |-
-|
+|If &nbsp;<math style="vertical-align: 0px">T</math>&nbsp; was onto, then &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; spans &nbsp;<math style="vertical-align: 0px">\mathbb{R}^4.</math>
+|-
+|This would mean that &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; contains 4 pivots.
 |}
@@ Line 53: / Line 77: @@
 !Step 2: &nbsp;
 |-
-|
+|But, if &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; has 4 pivots, then &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; would be invertible, which is not true.
+|-
+|Hence, &nbsp;<math style="vertical-align: 0px">T</math>&nbsp; is not onto.
 |}
@@ Line 60: / Line 86: @@
 !Final Answer: &nbsp;
 |-
-|&nbsp;&nbsp; '''(a)''' &nbsp; &nbsp;
+|&nbsp;&nbsp; '''(a)''' &nbsp; &nbsp; Since &nbsp;<math style="vertical-align: -4px">\text{det }B=0,</math>&nbsp; we have that &nbsp;<math style="vertical-align: 0px">B</math>&nbsp; is not invertible.
 |-
-|&nbsp;&nbsp; '''(b)''' &nbsp; &nbsp;
+|&nbsp;&nbsp; '''(b)''' &nbsp; &nbsp; No, see explaination above.
 |}
 [[031_Review_Part_2|'''<u>Return to Sample Exam</u>''']]

Difference between revisions of "031 Review Part 2, Problem 3"

Revision as of 08:03, 11 October 2017

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