Science:Math Exam Resources/Courses/MATH307/April 2010/Question 06 (b)

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MATH307 April 2010

• Q1 (a) • Q1 (b) • Q1 (c) • Q1 (d) • Q1 (e) • Q1 (f) • Q2 (a) • Q2 (b) • Q2 (c) • Q2 (d) • Q2 (e) • Q2 (f) • Q3 (a) • Q3 (b) • Q3 (c) • Q3 (d) • Q4 (a) • Q4 (b) • Q4 (c) • Q5 (a) • Q5 (b) • Q5 (c) • Q5 (d) • Q5 (e) • Q6 (a) • Q6 (b) • Q6 (c) •

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Question 06 (b)
Consider the matrix $P={\begin{bmatrix}{\frac {1}{2}}&0&0&0\\{\frac {1}{6}}&\alpha &0&\\{\frac {1}{6}}&0&\beta &0\\{\frac {1}{6}}&&*&\gamma \end{bmatrix}}$ Show that the eigenvalues of P are $\lambda _{1}={\frac {1}{2}},\lambda _{2}=\beta ,\lambda _{3}=\alpha +\gamma -1,\lambda _{4}=1$ .

Make sure you understand the problem fully: What is the question asking you to do? Are there specific conditions or constraints that you should take note of? How will you know if your answer is correct from your work only? Can you rephrase the question in your own words in a way that makes sense to you?

If you are stuck, check the hint below. Consider it for a while. Does it give you a new idea on how to approach the problem? If so, try it!

Hint
Science:Math Exam Resources/Courses/MATH307/April 2010/Question 06 (b)/Hint 1

Checking a solution serves two purposes: helping you if, after having used the hint, you still are stuck on the problem; or if you have solved the problem and would like to check your work.

If you are stuck on a problem: Read the solution slowly and as soon as you feel you could finish the problem on your own, hide it and work on the problem. Come back later to the solution if you are stuck or if you want to check your work.
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Solution
From part (a), the matrix P with entries filled in is $P={\begin{bmatrix}{\frac {1}{2}}&0&0&0\\{\frac {1}{6}}&\alpha &0&1-\gamma \\{\frac {1}{6}}&0&\beta &0\\{\frac {1}{6}}&1-\alpha &1-\beta &\gamma \end{bmatrix}}.$ To show each value is an eigenvalue, it must satisfy the Failed to parse (syntax error): {\displaystyle \text{det}(P-λI)=0 } . $P-\lambda I={\begin{bmatrix}{\frac {1}{2}}-\lambda &0&0&0\\{\frac {1}{6}}&\alpha -\lambda &0&1-\gamma \\{\frac {1}{6}}&0&\beta -\lambda &0\\{\frac {1}{6}}&1-\alpha &1-\beta &\gamma -\lambda \end{bmatrix}}.$ So ${\text{det}}(P-\lambda I)=({\frac {1}{2}}-\lambda )*{\text{det}}(A)$ where $A={\begin{bmatrix}\alpha -\lambda &0&1-\gamma \\0&\beta -\lambda &0\\1-\alpha &1-\beta &\gamma -\lambda \end{bmatrix}}.$ To compute ${\text{det}}(A)$ , we expand across the second row ${\begin{aligned}{\text{det}}(A)&=(\beta -\lambda )[(\alpha -\lambda )(\gamma -\lambda )-(1-\gamma )(1-\alpha )]\\&=(\beta -\lambda )(\alpha \gamma -\alpha \lambda -\gamma \lambda +\lambda ^{2}-1+\alpha +\gamma -\alpha \gamma )\\&=(\beta -\lambda )(\lambda ^{2}-(\alpha +\gamma )\lambda +(\alpha +\gamma -1))\\&=(\beta -\lambda )(\lambda +1-\alpha -\gamma )(\lambda -1)\end{aligned}}$ So, ${\text{det}}(P-\lambda I)=({\frac {1}{2}}-\lambda )(\beta -\lambda )(\lambda +1-\alpha -\gamma )(\lambda -1)$ . Notice that ${\text{det}}(P-\lambda I)=0$ when $\lambda ={\frac {1}{2}},\beta ,\alpha +\gamma -1,1$ , which are indeed the eigenvalues we needed to show for.

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Question 06 (b)

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