Textbook Question
Each expression simplifies to a constant, a single function, or a power of a function. Use fundamental identities to simplify each expression.
csc² t - 1
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Ch. 5 - Trigonometric Identities
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 6, Problem 5.48
Verify that each equation is an identity.
(tan² α + 1)/ sec α = sec α
Verified step by step guidance1
Start by recalling the Pythagorean identity: \( \tan^2 \alpha + 1 = \sec^2 \alpha \).
Substitute \( \sec^2 \alpha \) for \( \tan^2 \alpha + 1 \) in the left-hand side of the equation, giving \( \frac{\sec^2 \alpha}{\sec \alpha} \).
Simplify the expression \( \frac{\sec^2 \alpha}{\sec \alpha} \) by canceling one \( \sec \alpha \) from the numerator and the denominator, resulting in \( \sec \alpha \).
Observe that the simplified left-hand side \( \sec \alpha \) is equal to the right-hand side \( \sec \alpha \).
Conclude that the original equation \( \frac{\tan^2 \alpha + 1}{\sec \alpha} = \sec \alpha \) is indeed an identity.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Trigonometric Identities
Trigonometric identities are equations that hold true for all values of the variable where both sides are defined. Common identities include the Pythagorean identities, reciprocal identities, and quotient identities. Understanding these identities is crucial for verifying equations and simplifying expressions in trigonometry.
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Fundamental Trigonometric Identities
Tangent and Secant Functions
The tangent function, tan(α), is defined as the ratio of the opposite side to the adjacent side in a right triangle, or as sin(α)/cos(α). The secant function, sec(α), is the reciprocal of the cosine function, defined as 1/cos(α). Recognizing the relationships between these functions is essential for manipulating and verifying trigonometric equations.
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6:22Graphs of Secant and Cosecant Functions
Algebraic Manipulation
Algebraic manipulation involves rearranging and simplifying expressions using algebraic rules. This includes factoring, expanding, and combining like terms. In the context of trigonometric identities, effective algebraic manipulation allows one to transform one side of an equation to match the other, thereby verifying the identity.
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04:12Algebraic Operations on Vectors
Related Practice
Textbook Question
For each expression in Column I, choose the expression from Column II that completes an identity. One or both expressions may need to be rewritten.
sec x/csc x
II
A. sin ^2 x/cos ^2 x
B.1/(sec ^2 x)
C. sin (-x)
D. csc ^2 x-cot ^2 x + sin ^2 x
E. tan x
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Textbook Question
Write each expression in terms of sine and cosine, and then simplify the expression so that no quotients appear and all functions are of θ only. See Example 3.
(sec θ - 1) (sec θ + 1)
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Textbook Question
Verify that each equation is an identity.
[(sec θ - tan θ)² + 1]/(sec θ csc θ - tan θ csc θ) = 2 tan θ
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Textbook Question
Find sinθ.
tan θ = -(√7)/2, sec θ > 0
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Textbook Question
Verify that each equation is an identity.
sin² β (1 + cot² β) = 1
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