Difference between revisions of "Kayla's pages"
Kayla Murray (talk | contribs) |
Kayla Murray (talk | contribs) |
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9B Sample 1: | 9B Sample 1: | ||
| − | 3.a) Step 2, should say 2 - cos(x), not 1 - cos(x) | + | ''3.a) Step 2, should say 2 - cos(x), not 1 - cos(x)'' |
| − | 4. Foundation, would be better to write it as sin^2(x) + cos^2(x) = 1 since you remind them of this in each example before using it anyways | + | ''4. Foundation, would be better to write it as sin^2(x) + cos^2(x) = 1 since you remind them of this in each example before using it anyways'' |
| − | 4.b) I think it would look better if you wrote \int 1 dx instead of just \int dx in steps 1 and 3 | + | ''4.b) I think it would look better if you wrote \int 1 dx instead of just \int dx in steps 1 and 3'' |
| − | 4.b) Make the size of the final integral in step 4 larger | + | ''4.b) Make the size of the final integral in step 4 larger'' |
| − | 6.b) Should be limit as a approaches 4 from the left only | + | ''6.b) Should be limit as a approaches 4 from the left only'' |
| − | 7. Foundation, should have a dx at the end of the equation for ds '''7.b) Why not solve it using u-sub directly instead of trig sub to start?''' | + | ''7. Foundation, should have a dx at the end of the equation for ds'' |
| + | '''7.b) Why not solve it using u-sub directly instead of trig sub to start?''' | ||
9B Sample 2: | 9B Sample 2: | ||
'''4. This is completely blank.''' | '''4. This is completely blank.''' | ||
| − | 5.b) Just compute 27^2/2^2 = 729/4, would look better I think | + | ''5.b) Just compute 27^2/2^2 = 729/4, would look better I think'' |
| − | 7.a) and b) Why convert the limit from a to x, since a ranges over real numbers also so l'Hopital's rule holds. | + | ''7.a) and b) Why convert the limit from a to x, since a ranges over real numbers also so l'Hopital's rule holds.'' |
| − | 7.b) Should be limit as a approaches 0 from the right only | + | ''7.b) Should be limit as a approaches 0 from the right only'' |
9B Sample 3: | 9B Sample 3: | ||
| − | Didn't find any corrections in this Exam. | + | ''Didn't find any corrections in this Exam.'' |
9A Sample 1: | 9A Sample 1: | ||
| − | 1. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity. | + | ''1. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity.'' |
9A Sample 2: | 9A Sample 2: | ||
Revision as of 16:35, 20 May 2017
Completed
Editing Comments
9B Sample 1: 3.a) Step 2, should say 2 - cos(x), not 1 - cos(x) 4. Foundation, would be better to write it as sin^2(x) + cos^2(x) = 1 since you remind them of this in each example before using it anyways 4.b) I think it would look better if you wrote \int 1 dx instead of just \int dx in steps 1 and 3 4.b) Make the size of the final integral in step 4 larger 6.b) Should be limit as a approaches 4 from the left only 7. Foundation, should have a dx at the end of the equation for ds 7.b) Why not solve it using u-sub directly instead of trig sub to start?
9B Sample 2: 4. This is completely blank. 5.b) Just compute 27^2/2^2 = 729/4, would look better I think 7.a) and b) Why convert the limit from a to x, since a ranges over real numbers also so l'Hopital's rule holds. 7.b) Should be limit as a approaches 0 from the right only
9B Sample 3: Didn't find any corrections in this Exam.
9A Sample 1: 1. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity.
9A Sample 2: 1. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity. 1.a) %if% we plug in x=4... 3.c) Why not just use implicit differentiation to explain how to do the derivative? 5. This is completely blank. 8. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity. 10.c) Better to take the limit as x approaches infinity and negative infinity to show the HA is y=0.
9A Sample 3: 1.b) Fix the lim_{x\rightarrow 8} notation in step 1 7. Foundation, limit as x approaches any value a, not just infinity. And I don't think we need the comment that lim f'(x)/g'(x) is finite or +-infinity. 7.a) conjugate should be 3+sqrt(9-x), which changes the answer
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