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2014-07-31 17:38:09 -0600 | asked a question | Final Review Number one Let D denote the solid pyramid with vertices located at (4,0,0), (0,1,0), (0,0,2), and the origin. Set up $\iiint_{D} f( ... |
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2014-07-29 18:56:25 -0600 | asked a question | Review for final Exam I was looking back over Exam 1 and question number ten is still giving me a problem. Can someone please explain the righ ... |
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2014-07-28 14:47:43 -0600 | asked a question | Number 6 on Exam 2 I have a question on number six from the last test because I am unable to figure out what I did wrong. The question was ... |
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2014-07-24 18:08:34 -0600 | asked a question | Quiz question This maybe a simple question but can someone please help me with one of the problems that was said to be similar on the ... |
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2014-07-16 18:41:12 -0600 | asked a question | Lagrange multipliers and their system of equations On number 9 from the review sheet the question asks to find the extremes of $f(x, y) = 2x + 4y$ subject to $x^2+y^2=20$.
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2014-07-08 16:57:54 -0600 | asked a question | Does anyone know any tips or ideas on visualizing the functions? I am having trouble matching the functions from the problem sheet that we did today (July 8) and I was wondering if some ... |
2014-07-02 15:06:07 -0600 | answered a question | How to find the equation of a plane containing two lines? When I was looking for the points of intersection I set the two vectors equal to each other.
$$3+2t=-2-3s$$
$$1-t=2s$$
$ ... |
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2014-07-01 13:09:26 -0600 | asked a question | Finding a value so that it is perpendicular to a vector I thought that if you are looking for a value that is perpendicular to a vector you could use the dot product and just s ... |
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2014-06-30 17:57:28 -0600 | asked a question | From Fundamental circular motion how do we get the tangent line when given t? So I know fundamental circular motion is $\vec{p} = \langle{\cos(t)},{\sin(t)}\rangle$ and we are given the equation: $\ ... |