2014-07-31 09:15:02 -0600 | received badge | ● Good Question (source) |
2014-07-31 09:14:51 -0600 | received badge | ● Popular Question (source) |
2014-07-30 20:36:29 -0600 | received badge | ● Scholar (source) |
2014-07-28 07:11:09 -0600 | received badge | ● Good Answer (source) |
2014-07-27 17:57:06 -0600 | received badge | ● Nice Answer (source) |
2014-07-25 21:05:03 -0600 | received badge | ● Great Answer (source) |
2014-07-25 21:05:03 -0600 | received badge | ● Guru (source) |
2014-07-25 18:04:23 -0600 | answered a question | Setting up spherical integrals Ok, so here's my whack at it while building off of Christina's input. Like Christina said $\phi$ is the angle that is me ... |
2014-07-25 16:09:15 -0600 | received badge | ● Nice Answer (source) |
2014-07-25 09:34:30 -0600 | answered a question | Question #2 on quiz Actually that's the answer that I got as well. I thought about it for a while and it sorta makes sense to me when I drew ... |
2014-07-25 06:52:41 -0600 | received badge | ● Good Answer (source) |
2014-07-25 06:52:12 -0600 | received badge | ● Nice Question (source) |
2014-07-25 06:50:12 -0600 | received badge | ● Good Answer (source) |
2014-07-25 06:32:31 -0600 | received badge | ● Good Answer (source) |
2014-07-25 04:40:31 -0600 | received badge | ● Student (source) |
2014-07-24 21:30:49 -0600 | asked a question | Can Anyone Validate Problem #3 So for problem #3 on the In-Class worksheet I worked it through, but didn't have enough time to validate my answer with ... |
2014-07-24 18:59:39 -0600 | received badge | ● Nice Answer (source) |
2014-07-24 18:29:13 -0600 | received badge | ● Nice Answer (source) |
2014-07-24 18:27:01 -0600 | answered a question | Quiz question If you would like, you could look at how Christina set up the problem in the question she asked, seeing as it is a disk ... |
2014-07-24 18:17:40 -0600 | received badge | ● Nice Answer (source) |
2014-07-24 17:43:32 -0600 | answered a question | Graphical explanation
Hopefully this image helps with Dylan's great explanation. This should be the final product.
... |
2014-07-24 17:00:30 -0600 | answered a question | Setting up exponential function in Cartesian coordinates Christina,
As far as the integral in polar coordinates, it looks like you know what you're doing. $$\int_0^{2\pi}\int_ ... |
2014-07-24 06:44:37 -0600 | received badge | ● Enlightened (source) |
2014-07-23 16:39:47 -0600 | received badge | ● Good Answer (source) |
2014-07-23 16:30:26 -0600 | received badge | ● Nice Answer (source) |
2014-07-23 16:29:27 -0600 | received badge | ● Editor (source) |
2014-07-23 16:18:06 -0600 | answered a question | Mass of region between two graphs I feel like it is a great start. Now if you were to set the two equations, $8-r^2$ and $r^2$, equal to each other you'll ... |
2014-07-16 22:17:05 -0600 | received badge | ● Teacher (source) |
2014-07-11 00:13:22 -0600 | received badge | ● Supporter (source) |
2014-07-02 23:27:06 -0600 | answered a question | How do I accurately visualize and describe level curves? Running off of Kyouko and from what I understand, the level curves take shape of their functions for that axis in the $x ... |