Given equations that define a region in the plane students are asked to find its area, the volume of the solid formed when the region is revolved around a line, and/or the region is used as a base of a solid with regular cross-sections. This standard application of the integral has appeared every year since year one (1969) on the AB exam and almost every year on the BC exam. You can be pretty sure that if a free-response question on areas and volumes does not appear, the topic will be tested on the multiple-choice section.

**What students should be able to do:**

- Find the intersection(s) of the graphs and use them as limits of integration (calculator equation solving). Write the equation followed by the solution; showing work is not required. Usually no credit is earned until the solution is used in context (as a limit of integration). Students should know how to store and recall these values to save time and avoid copy errors.
- Find the area of the region between the graph and the
*x*-axis or between two graphs. - Find the volume when the region is revolved around a line, not necessarily an axis or an edge of the region, by the disk/washer method.
- The cylindrical shell method will
*never be necessary*for a question on the AP exams, but is eligible for full credit if properly used. - Find the volume of a solid with regular cross-sections whose base is the region between the curves. For an interesting variation on this idea see 2009 AB 4(b)
- Find the equation of a vertical line that divides the region in half (area or volume). This involves setting up an integral equation where the limit is the variable for which the equation is solved.
- For BC only – find the area of a region bounded by polar curves:
- For BC only – Find perimeter using arc length integral

__If this question appears on the calculator active section__, it is expected that the definite integrals will be evaluated on a calculator. Students should write the definite integral with limits on their paper and put its value after it. It is *not* required to give the antiderivative and if a student gives an incorrect antiderivative they will lose credit even if the final answer is (somehow) correct.

There is a calculator program available that will give the set-up and not just the answer so recently this question has been on the no calculator allowed section. (The good news is that in this case the integrals will be easy or they will be set-up-but-do-not-integrate questions.)

Occasionally, other type questions have been included as a part of this question. See 2016 AB5/BC5 which included an average value question and a related rate question along with finding the volume.

Shorter questions on this concept appear in the multiple-choice sections. As always, look over as many questions of this kind from past exams as you can find.

For some previous posts on this subject see January 9, 11, 2013 and “Subtract the Hole from the Whole” of December 6, 2016

Free-response questions:

- 2014 AB 2, 2013 AB 5.
- 2015 AB 2
- Variations: 2009 AB 4,
- 2016 AB5/BC5,
- 2017 AB 1 (using a table),
- Perimeter 2011 BC 3 and 2014 BC 5

Multiple-choice questions from non-secure exams:

- 2008 AB 83 (Use absolute value),
- 2012 AB 10, 92
- 2012 BC 87, 92 (Polar area)

Schedule of review postings:

- Tuesday February 27 – AP Exam Review
- Friday, March 2 – Resources for reviewing
- Tuesday March 6 – Type 1 questions – Rate and accumulation questions
- Friday March 9 – Type 2 questions – Linear motion problems
- Tuesday March 13 – Type 3 questions – Graph analysis problems
- Friday March 16 – Type 4 questions – Area and volume problems (this post)
- Tuesday Match 20 Type 5 questions – Table and Riemann sum questions
- Friday March 23 Type 6 questions – Differential equation questions
- Tuesday March 27 – Type 7 questions – miscellaneous
- Friday March 30 Type 8 questions – Parametric and vector questions (BC topic)
- Tuesday April 3 Type 9 questions – Polar equations
- Friday April 6 Type 10 questions – Sequences and Series

Revised to add perimeter question 3-16-18