Textbook Question
Simplify each expression. Assume all variables represent nonzero real numbers. See Examples 2 and 3. (2²)⁵
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Ch. R - Algebra Review
Lial12th EditionTrigonometryISBN: 9780136552161
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Table of contents
- Ch. R - Algebra Review381
- Ch. 1 - Trigonometric Functions188
- Ch. 2 - Acute Angles and Right Triangles168
- Ch. 3 - Radian Measure and The Unit Circle155
- Ch. 4 - Graphs of the Circular Functions100
- Ch. 5 - Trigonometric Identities238
- Ch. 6 - Inverse Circular Functions and Trigonometric Equations158
- Ch. 7 - Applications of Trigonometry and Vectors148
- Ch. 8 - Complex Numbers, Polar Equations, and Parametric Equations15
Chapter 1, Problem R.3.9
CONCEPT PREVIEW Which of the following is the correct factorization of x⁴ - 1? A. (x² - 1) (x² + 1) B. (x² + 1) (x + 1) (x - 1) C. (x² - 1)² D. (x - 1)² (x + 1)²
Verified step by step guidance1
Recognize that the expression \(x^4 - 1\) is a difference of squares, since it can be written as \((x^2)^2 - 1^2\).
Apply the difference of squares formula: \(a^2 - b^2 = (a - b)(a + b)\), where \(a = x^2\) and \(b = 1\). This gives \(x^4 - 1 = (x^2 - 1)(x^2 + 1)\).
Notice that \(x^2 - 1\) is itself a difference of squares and can be further factored as \((x - 1)(x + 1)\).
Combine the factors to express the full factorization as \((x - 1)(x + 1)(x^2 + 1)\).
Compare this factorization with the given options to identify which one matches the correct factorization.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Difference of Squares
The difference of squares is a factoring technique where an expression of the form a² - b² can be factored into (a - b)(a + b). For example, x⁴ - 1 can be seen as (x²)² - 1², allowing it to be factored into (x² - 1)(x² + 1).
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Sum and Difference of Tangent
Further Factorization of Quadratic Expressions
Some quadratic expressions, like x² - 1, can be further factored if they are also differences of squares. Since x² - 1 = (x - 1)(x + 1), recognizing this allows complete factorization of higher-degree polynomials into linear factors.
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Understanding Polynomial Factorization and Exponents
Polynomial factorization involves breaking down expressions into products of simpler polynomials. Recognizing powers and exponents, such as x⁴ being (x²)², helps in applying factoring formulas correctly and identifying equivalent factorizations.
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Related Practice
Textbook Question
CONCEPT PREVIEW Work each problem. Match each polynomial in Column I with its factored form in Column II. I II a. 8x³ - 27 A. (3 - 2x) (9 + 6x + 4x²) b. 8x³ + 27 B. (2x - 3) (4x² + 6x + 9) c. 27 - 8x³ C. (2x + 3) (4x² - 6x + 9)
Textbook Question
Simplify each expression. See Example 1. (½ mn) (8m²n²)
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Textbook Question
Simplify each expression. Assume all variables represent nonzero real numbers. See Examples 2 and 3. -(4m³n⁰)²
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Textbook Question
CONCEPT PREVIEW Fill in the blank(s) to correctly complete each sentence. The opposite, or negative, of a number is its _______.
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Textbook Question
Fill in the blank(s) to correctly complete each sentence.
The graph of ƒ(x) = (x + 4)² is obtained by shifting the graph of y = x² to the ___ 4 units.
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