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[http://www.math.purdue.edu/~bell/MA527/jing Bell's Jing things] | [http://www.math.purdue.edu/~bell/MA527/jing Bell's Jing things] | ||
| + | [http://www.math.purdue.edu/~bell/MA527/prac2solns.pdf Exam 2 Practice Problem Solutions] | ||
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I was also wondering if you could give us more practice problems like practice problem #11, because I'm still really confused (even though I attempted HW 12 and looked at the solutions). Or, could you at least show every step for practice problem #11? | I was also wondering if you could give us more practice problems like practice problem #11, because I'm still really confused (even though I attempted HW 12 and looked at the solutions). Or, could you at least show every step for practice problem #11? | ||
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Revision as of 08:15, 16 November 2010
Homework 12 Solutions
517: 1.
$ \hat{f}_c(w)=\sqrt{\frac{2}{\pi}}\left( \int_0^1(-1)\cos(wx)\,dx+ \int_1^2(1)\cos(wx)\,dx \right)= $
$ =\sqrt{\frac{2}{\pi}}\left([-\frac{1}{w}\sin(wx)]_0^1 +[\frac{1}{w}\sin(wx)]_1^2\right)= $
$ =\sqrt{\frac{2}{\pi}}\ \frac{1}{w}\left( -(\sin(w)-0)+(\sin(2w)-\sin(w)) \right)= $
$ =\sqrt{\frac{2}{\pi}}\ \frac{\sin(2w)-2\sin(w)}{w}. $
517: 2.
$ \hat{f}_c(w)=\sqrt{\frac{2}{\pi}}\left( \int_0^k x\cos(wx)\,dx\right)= $
$ =\sqrt{\frac{2}{\pi}}\left(\left[\frac{x}{w}\sin(wx)+\frac{1}{w^2}\cos(wx)\right]_0^k \right)= $
$ \sqrt{\frac{2}{\pi}}\left(\frac{k}{w}\sin(kw)+\frac{1}{w^2}\cos(kw) -\frac{1}{w^2}\right). $
517: 5. See page 2 of Bell's 11/10/2010 lecture at Lesson 33
517: 7. See p. 517: 7 Solution
And for solutions to the three problems on p. 528, go to Bell's Jing things
Exam 2 Practice Problem Solutions
Question:
I was also wondering if you could give us more practice problems like practice problem #11, because I'm still really confused (even though I attempted HW 12 and looked at the solutions). Or, could you at least show every step for practice problem #11?
