Ch. 5 - Complex Numbers, Polar Coordinates and Parametric Equations

Blitzer3rd EditionTrigonometryISBN: 9780137316601Not the one you use?Change textbook

Blitzer 3rd Edition

Ch. 5 - Complex Numbers, Polar Coordinates and Parametric Equations

Problem 5.RE.55

Chapter 5, Problem 5.RE.55

In Exercises 54–60, convert each polar equation to a rectangular equation. Then use your knowledge of the rectangular equation to graph the polar equation in a polar coordinate system. θ = 3π/4

Verified step by step guidance

Recall the relationship between polar and rectangular coordinates: \(x = r \cos{\theta}\) and \(y = r \sin{\theta}\).

Given the polar equation \(\theta = \frac{3\pi}{4}\), recognize that this represents all points where the angle from the positive x-axis is \(\frac{3\pi}{4}\) radians.

Express \(\tan{\theta}\) in terms of \(x\) and \(y\) using the identity \(\tan{\theta} = \frac{y}{x}\).

Substitute \(\theta = \frac{3\pi}{4}\) into the tangent expression to get \(\tan{\frac{3\pi}{4}} = \frac{y}{x}\).

Use the known value of \(\tan{\frac{3\pi}{4}}\) to write the rectangular equation relating \(x\) and \(y\), which can then be used to graph the line in the rectangular coordinate system and interpret it in the polar coordinate system.

Verified video answer for a similar problem:

This video solution was recommended by our tutors as helpful for the problem above.

Video duration:

Was this helpful?

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 interpreting graphs in both formats.

Conversion Formulas Between Polar and Rectangular Coordinates

The key formulas for conversion are x = r cos θ and y = r sin θ, which translate polar coordinates into rectangular form. Additionally, r = √(x² + y²) and θ = arctan(y/x) convert rectangular coordinates back to polar.

Graphing Lines in Polar Coordinates

A polar equation like θ = constant represents a line through the origin at a fixed angle. Converting this to rectangular form helps visualize the line as y = mx, where m = tan(θ), facilitating graphing in both coordinate systems.

Recommended video:

05:32

Intro to Polar Coordinates

Related Practice

Textbook Question

In Exercises 61–63, test for symmetry with respect to

a. the polar axis.

b. the line θ = π/2.

c. the pole.

r = 5 + 3 cos θ

773

views

Textbook Question

In Exercises 59–62, sketch the plane curve represented by the given parametric equations. Then use interval notation to give each relation's domain and range. x = t² + t + 1, y = 2t

749

views

Textbook Question

In Exercises 1–8, parametric equations and a value for the parameter t are given. Find the coordinates of the point on the plane curve described by the parametric equations corresponding to the given value of t. x = 4 + 2 cos t, y = 3 + 5 sin t; t = π/2

703

views

Textbook Question

In Exercises 53–64, use DeMoivre's Theorem to find the indicated power of the complex number. Write answers in rectangular form. [√3 (cos (5π/18) + i sin (5π/18))]⁶

567

views

Textbook Question

In Exercises 64–70, graph each polar equation. Be sure to test for symmetry. r = 2 + 2 sin θ

789

views

Textbook Question

In Exercises 54–60, convert each polar equation to a rectangular equation. Then use your knowledge of the rectangular equation to graph the polar equation in a polar coordinate system. r = 5 csc θ

998

views