- Write the first five terms of the sequence. Two parts. Look at 7.1.1-22, 29-34
- Find the most apparent pattern for the general term of the sequence. Two parts. Look at problems 7.1.51-64
- Simplify the ratio of the factorials: Two parts. Look at 7.1.69-78
- Find the sum, given in summation notation. Two parts. Look at 7.1.79-90
- Write the first five terms of the arithmetic sequence. Look at 7.2.17-20
- Find the nth term of the arithmetic sequence. Look at problems 7.2.25-28, 41-44 although these aren't exactly like the problem on the test. After finding the general term for the sequence, you need to plug in the number of the term asked for.
- Find the nth partial sum of the arithmetic sequence. Look at 7.2.59-64
- Use the formula for the nth partial sum of an arithmetic series to find the sum of the arithmetic sequence, given in summation notation. Look at 7.2.65-78
- Write the first five terms of the geometric sequence. Look at 7.3.21-26
- Find the nth term of the geometric sequence. Look at 7.3.33-36
- Use the formula for the nth partial sum of a geometric series to find the sum of the geometric sequence, given in summation notation. Look at problems 7.3.55-64.
- Find the sum of the infinite geometric series. Look at problems 7.3.69-80
- Evaluate a combination and a permutation. Two parts. Look at 7.5.13-18 and 7.6.33-38
- Find the number of distinguishable permutations of a group of letters. Look at 7.6.43-46
- Use the Binomial Expansion Theorem to expand and simplify the expression. Look at 7.5.23-40
- Find the nth term of a binomial expansion. 7.5.49-56
- Find a closed form for the sum. Look at the take home test. Know the formulas for the sums of the powers of integers from page 530.

- You may bring in a set of note cards with the following formulae:
- Arithmetic Sequences / Series: Common Difference, General Term, Sum of the first n terms (two formulas)
- Geometric Sequences / Series: Common Ratio, General Term, Sum of the first n terms, Sum of an infinite series
- Sum of the powers of the integers (1, n, n
^{2}, n^{3}, n^{4}, n^{5}) - see page 530 - Formula for combination, permutation, and distinguishable permutations

- You may NOT put examples on the note cards
- It would be wise to put each section of notes on a separate card, rather than trying to cram too much onto one card. Write large enough it's legible, and check for accuracy.
- The Binomial Expansion Theorem may NOT be on a note card.
- Because of the time it will take to work a mathematical induction problem, the mathematical induction problems have been moved to a take home test.
- The in-class portion of the test will be worth 75 points, the take-home portion of the test will be worth 25 points.
- The take-home portion of the test will be due on the day of the chapter exam.

# | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | Total |
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Pts | 6 | 4 | 6 | 6 | 4 | 4 | 4 | 4 | 4 | 4 | 4 | 4 | 4 | 4 | 5 | 4 | 4 | 75 |