Textbook Question
Find the sum of the first 22 terms of the arithmetic sequence: 5, 12, 19, 26, ...
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Ch. 8 - Sequences, Induction, and Probability
Blitzer8th EditionCollege AlgebraISBN: 9780136970514
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Table of contents
- Ch. P - Fundamental Concepts of Algebra311
- Ch. 1 - Equations and Inequalities398
- Ch. 2 - Functions and Graphs407
- Ch. 3 - Polynomial and Rational Functions306
- Ch. 4 - Exponential and Logarithmic Functions247
- Ch. 5 - Systems of Equations and Inequalities173
- Ch. 6 - Matrices and Determinants143
- Ch. 7 - Conic Sections124
- Ch. 8 - Sequences, Induction, and Probability251
Chapter 9, Problem 23
Evaluate each factorial expression. 17!/15!
Verified step by step guidance1
Recall the definition of factorial: for any positive integer \(n\), \(n! = n \times (n-1) \times (n-2) \times \cdots \times 1\).
Write out the factorial expressions explicitly: \(17! = 17 \times 16 \times 15!\).
Substitute this into the given expression: \(\frac{17!}{15!} = \frac{17 \times 16 \times 15!}{15!}\).
Notice that \$15!$ appears in both numerator and denominator, so they cancel out: \(\frac{17 \times 16 \times \cancel{15!}}{\cancel{15!}} = 17 \times 16\).
The expression simplifies to the product \(17 \times 16\), which you can multiply to find the final value.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Factorial Notation
Factorial notation, denoted by n!, represents the product of all positive integers from n down to 1. For example, 5! = 5 × 4 × 3 × 2 × 1 = 120. It is commonly used in permutations, combinations, and other algebraic expressions.
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Simplifying Factorial Expressions
When dividing factorials like 17!/15!, you can cancel common terms. Since 17! = 17 × 16 × 15!, the 15! terms cancel out, leaving 17 × 16. This simplification avoids calculating large factorials directly.
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Properties of Factorials in Division
Factorials have the property that n! = n × (n-1)!. This allows breaking down factorial expressions in division problems to simplify calculations by canceling out common factorial terms, making complex expressions manageable.
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Related Practice
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In Exercises 19–22, the general term of a sequence is given and involves a factorial. Write the first four terms of each sequence. an=−2(n−1)!
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Use the Binomial Theorem to expand each binomial and express the result in simplified form. (c+2)5
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Write a formula for the general term (the nth term) of each geometric sequence. Then use the formula for an to find a7, the seventh term of the sequence. 0.0004, - 0.0004, 0.04, - 0.04, ...
Textbook Question
In Exercises 19–22, the general term of a sequence is given and involves a factorial. Write the first four terms of each sequence. an=2(n+1)!
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