Textbook Question
In Exercises 1–10, perform the indicated operations and write the result in standard form. (7 + 8i)(7 − 8i)
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Ch. 5 - Complex Numbers, Polar Coordinates and Parametric Equations
Blitzer3rd EditionTrigonometryISBN: 9780137316601
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Blitzer 3rd EditionCh. 5 - Complex Numbers, Polar Coordinates and Parametric EquationsProblem 5.3.65
Blitzer 3rd EditionCh. 5 - Complex Numbers, Polar Coordinates and Parametric EquationsProblem 5.3.65Chapter 5, Problem 5.3.65
In Exercises 59–74, convert each polar equation to a rectangular equation. Then use a rectangular coordinate system to graph the rectangular equation. r = 4 csc θ
Verified step by step guidance1
Recall the relationship between polar and rectangular coordinates: \(x = r \cos \theta\) and \(y = r \sin \theta\). Also, \(r = \sqrt{x^2 + y^2}\).
Given the polar equation \(r = 4 \csc \theta\), rewrite \(\csc \theta\) in terms of sine: \(\csc \theta = \frac{1}{\sin \theta}\), so the equation becomes \(r = \frac{4}{\sin \theta}\).
Multiply both sides of the equation by \(\sin \theta\) to get \(r \sin \theta = 4\).
Substitute \(r \sin \theta\) with \(y\) (from the coordinate relationships), resulting in the rectangular equation \(y = 4\).
Interpret the rectangular equation \(y = 4\) as a horizontal line crossing the y-axis at 4, which can be graphed on the rectangular coordinate system.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Polar and Rectangular Coordinate Systems
Polar coordinates represent points using a radius and an angle (r, θ), while rectangular coordinates use (x, y) positions on a plane. Understanding how these systems relate is essential for converting equations and graphing accurately.
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Intro to Polar Coordinates
Conversion Formulas Between Polar and Rectangular Coordinates
Key formulas include x = r cos θ, y = r sin θ, r² = x² + y², and tan θ = y/x. These allow transformation of polar equations into rectangular form by substituting r and θ with expressions involving x and y.
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06:17Convert Points from Polar to Rectangular
Trigonometric Functions and Their Reciprocal Identities
The cosecant function, csc θ, is the reciprocal of sin θ (csc θ = 1/sin θ). Recognizing this helps rewrite the given polar equation r = 4 csc θ in terms of sine, facilitating substitution and conversion to rectangular coordinates.
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5:32Fundamental Trigonometric Identities
Related Practice
Textbook Question
In Exercises 49–58, convert each rectangular equation to a polar equation that expresses r in terms of θ. 3x + y = 7
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Textbook Question
In Exercises 53–64, use DeMoivre's Theorem to find the indicated power of the complex number. Write answers in rectangular form. [2(cos 40° + i sin 40°)]³
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Textbook Question
In Exercises 53–64, use DeMoivre's Theorem to find the indicated power of the complex number. Write answers in rectangular form. [1/2 (cos π/12 + i sin π/12)]⁶
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Textbook Question
In Exercises 53–58, perform the indicated operation(s) and write the result in standard form. ___ ___ 5√(−16) + 3√(−81)
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Textbook Question
In Exercises 45–52, use your answers from Exercises 41–44 and the parametric equations given in Exercises 41–44 to find a set of parametric equations for the conic section or the line.
Circle: Center: (3,5); Radius: 6
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