Textbook Question
Write each trigonometric expression as an algebraic expression in u, for u > 0.
cos (arcsin u)
622
views
Ch. 6 - Inverse Circular Functions and Trigonometric Equations
Lial12th EditionTrigonometryISBN: 9780136552161
Not the one you use?Change textbookSelect a different textbook
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
All textbooks
Lial 12th EditionCh. 6 - Inverse Circular Functions and Trigonometric EquationsProblem 95
Lial 12th EditionCh. 6 - Inverse Circular Functions and Trigonometric EquationsProblem 95Chapter 7, Problem 95
Write each trigonometric expression as an algebraic expression in u, for u > 0.
sin (arccos u)
Verified step by step guidance1
Recognize that the expression is \( \sin(\arccos u) \). Let \( \theta = \arccos u \), which means \( \cos \theta = u \) and \( \theta \) is an angle whose cosine is \( u \).
Since \( \theta = \arccos u \), \( \theta \) lies in the range \( [0, \pi] \), and given \( u > 0 \), \( \theta \) is in the first quadrant where sine is positive.
Use the Pythagorean identity for sine and cosine: \( \sin^2 \theta + \cos^2 \theta = 1 \). Substitute \( \cos \theta = u \) to get \( \sin^2 \theta = 1 - u^2 \).
Take the positive square root (since \( \theta \) is in the first quadrant) to find \( \sin \theta = \sqrt{1 - u^2} \).
Therefore, \( \sin(\arccos u) = \sqrt{1 - u^2} \), which expresses the original trigonometric expression algebraically in terms of \( u \).
Verified video answer for a similar problem:
This video solution was recommended by our tutors as helpful for the problem above.
Was this helpful?
Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Inverse Trigonometric Functions
Inverse trigonometric functions, like arccos, return an angle whose trigonometric function equals the given value. For arccos u, it gives an angle θ such that cos θ = u, with θ in the range [0, π]. Understanding this helps convert expressions involving inverse functions into angle-based forms.
Recommended video:
4:28
Introduction to Inverse Trig Functions
Pythagorean Identity
The Pythagorean identity states that sin²θ + cos²θ = 1 for any angle θ. This relationship allows us to express sin θ in terms of cos θ as sin θ = √(1 - cos²θ), which is essential when rewriting sin(arccos u) as an algebraic expression in u.
Recommended video:
6:25Pythagorean Identities
Domain and Range Considerations
When dealing with inverse trig functions and their compositions, it's important to consider the domain and range to determine the correct sign of the resulting expression. Since u > 0 and arccos u ∈ [0, π/2), sin(arccos u) is positive, ensuring the positive root is chosen in the algebraic expression.
Recommended video:
4:22Domain and Range of Function Transformations
Related Practice
Textbook Question
Write each trigonometric expression as an algebraic expression in u, for u > 0.
sin (2 sec⁻¹ u/2)
822
views
Textbook Question
Evaluate each expression without using a calculator.
sin (sin⁻¹ 1/2 + tan⁻¹ (-3))
726
views
Textbook Question
Use a calculator to find each value. Give answers as real numbers.
cos (tan⁻¹ 0.5)
670
views
Textbook Question
Write each trigonometric expression as an algebraic expression in u, for u > 0.
tan (sin⁻¹ u/(√u² + 2))
704
views
Textbook Question
Use a calculator to find each value. Give answers as real numbers.
tan (arcsin 0.12251014)
666
views