Tuesday, March 8, 2016

Term 2, Weeks 12-13 Discussion (Final Exam & Series)

The final exam is March 14-17!

This is for discussing assignments from WEEKS 12-13, including homework, FINAL EXAM REVIEW, in-class work or lessons, or anything else related to the class from these weeks.  Please be sure to include your name at the end of your post for credit.  When answering a question, DO NOT GIVE SOLUTIONS! Provide hints or explain a method that you used, but do not give the final result.  As always, RESPECT IS A MUST! Anyone abusing this forum will be banned from future use (meaning, no extra credit!!!).
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17 comments:

  1. Rachel F.March 11, 2016 at 9:58 AM

    On the final, will there be a lot of sequences and series because it's a large portion of the AP.
    Rachel

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    Replies
    1. Coach WilsonMarch 11, 2016 at 10:38 AM

      Sequences and series are not on the final exam

      Delete
  2. Rachel F.March 11, 2016 at 9:59 AM

    Would anyone be up for a group study?
    Rachel

    ReplyDelete
  3. UnknownMarch 11, 2016 at 10:06 AM

    When using the integral test on a series can you just say that it's less than the sum of 1/k^2 (which converges) so therefore it converges as well? Or do you need to show more work?
    Hope

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  4. UnknownMarch 13, 2016 at 2:16 PM

    How do you find d^2y/dx^2 (the second derivative) for parametric functions?

    ReplyDelete
    Replies
    1. Coach WilsonMarch 13, 2016 at 6:07 PM

      Find dy/dx (which is dy/dt divided by dx/dt). Differentiate dy/dx with respect to time. Then divide by dx/dt.

      Delete
  5. clairewesterlundMarch 14, 2016 at 1:17 PM

    What will the breakdown be of topics from 1st tri vs. 2nd tri? Or, is it more a reflection of an AP test without sequences/series?

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  6. UnknownMarch 14, 2016 at 3:20 PM

    In order to get a function out of parametric mode, can you solve for t using one equation then plug that answer in to the other other equation?
    -Sarah Mostofizadeh

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    Replies
    1. Coach WilsonMarch 14, 2016 at 7:51 PM

      Yes, that is one way. We did examples in class of that idea, called eliminating the parameter.

      Delete
  7. clairewesterlundMarch 14, 2016 at 7:10 PM

    Do we have to know trig identities (ex. cos2x or sin^2x) or will these be on calculator sections?

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    Replies
    1. UnknownMarch 14, 2016 at 7:40 PM

      I remember Mr. Wilson saying to know those since they come up on both sections (non-calculator and calculator).

      Delete
    2. Coach WilsonMarch 14, 2016 at 7:51 PM

      You MUST know the power reducing identities for sine and cosine!

      Delete
  8. FaythMarch 14, 2016 at 9:15 PM

    So i'm going over solids of revolution and I'm still having trouble discerning when you switch the function to dy/dt instead of dx/dt. Any tips? Sorry it's so late 😁

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    Replies
    1. AnonymousMarch 17, 2016 at 11:30 AM

      If you are using washers then you want the slices to be perpendicular to the axis you are revolving around. When you use shells you want the slices to be parallel. So, if this is not true for the method you are using, then you need to use dy to make it true.
      -Sarah Mostofizadeh

      Delete

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