8.5 Conic sections in polar coordinates

College algebra

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In this section, you will:

Identify a conic in polar form.
Graph the polar equations of conics.
Deﬁne conics in terms of a focus and a directrix.

Planets orbiting the sun follow elliptical paths. (credit: NASA Blueshift, Flickr)

Most of us are familiar with orbital motion, such as the motion of a planet around the sun or an electron around an atomic nucleus. Within the planetary system, orbits of planets, asteroids, and comets around a larger celestial body are often elliptical. Comets, however, may take on a parabolic or hyperbolic orbit instead. And, in reality, the characteristics of the planets’ orbits may vary over time. Each orbit is tied to the location of the celestial body being orbited and the distance and direction of the planet or other object from that body. As a result, we tend to use polar coordinates to represent these orbits.

In an elliptical orbit, the periapsis is the point at which the two objects are closest, and the apoapsis is the point at which they are farthest apart. Generally, the velocity of the orbiting body tends to increase as it approaches the periapsis and decrease as it approaches the apoapsis. Some objects reach an escape velocity, which results in an infinite orbit. These bodies exhibit either a parabolic or a hyperbolic orbit about a body; the orbiting body breaks free of the celestial body’s gravitational pull and fires off into space. Each of these orbits can be modeled by a conic section in the polar coordinate system.

Identifying a conic in polar form

Any conic may be determined by three characteristics: a single focus , a fixed line called the directrix , and the ratio of the distances of each to a point on the graph. Consider the parabola $x = 2 + y^{2}$ shown in [link] .

In The Parabola , we learned how a parabola is defined by the focus (a fixed point) and the directrix (a fixed line). In this section, we will learn how to define any conic in the polar coordinate system in terms of a fixed point, the focus $P (r, θ)$ at the pole, and a line, the directrix, which is perpendicular to the polar axis.

If $F$ is a fixed point, the focus, and $D$ is a fixed line, the directrix, then we can let $e$ be a fixed positive number, called the eccentricity , which we can define as the ratio of the distances from a point on the graph to the focus and the point on the graph to the directrix. Then the set of all points $P$ such that $e = \frac{P F}{P D}$ is a conic. In other words, we can define a conic as the set of all points $P$ with the property that the ratio of the distance from $P$ to $F$ to the distance from $P$ to $D$ is equal to the constant $e .$

For a conic with eccentricity $e,$

if $0 \leq e < 1,$ the conic is an ellipse
if $e = 1,$ the conic is a parabola
if $e > 1,$ the conic is an hyperbola

With this definition, we may now define a conic in terms of the directrix, $x = \pm p,$ the eccentricity $e,$ and the angle $θ .$ Thus, each conic may be written as a polar equation , an equation written in terms of $r$ and $θ .$

A General Note

The polar equation for a conic

For a conic with a focus at the origin, if the directrix is $x = \pm p,$ where $p$ is a positive real number, and the eccentricity is a positive real number $e,$ the conic has a polar equation

r = \frac{e p}{1 \pm e \cos θ}

For a conic with a focus at the origin, if the directrix is $y = \pm p,$ where $p$ is a positive real number, and the eccentricity is a positive real number $e,$ the conic has a polar equation

r = \frac{e p}{1 \pm e \sin θ}

Questions & Answers

If c is the cost function for a particular product, find the marginal cost functions and their values at x=10 a. c(x) = 800+ 0.04x + 0.0002x² b. c(x) = 250 + 100x + 0.001x²

Mamush Reply

how can I find set theory

Ephraim Reply

how can I find set theory

Jarvis

is there an error on the one about the dime's thickness? says 2.2x10⁶=0.00135 m

Patrick Reply

hi, interested in algebra

Makan Reply

how to reduce an equation?

Makan

by manipulation of both side

9(y+8)-27 is 9y+45. Why can't you reduce that to y+5? I know that's wrong but can't explain why

Patrick Reply

when you reduce an equation to its simplest terms, you can't change the value of the equation. reducing it to y + 5 is equivalent to dividing it by 9 which changes the value. you can multiply it by 1 or 9/9 which would give 9(y + 5). multiplying it by one does not change the value.

Philip

Given a polynomial expression, factor out the greatest common factor.

Hanu Reply

WHAT IS QUADRATIC EQUATION?

Charles Reply

WHAT IS SYSTEM OF LINEAR INEWUALITIES?

Charles

WHAT IS SYSTEM OF LINEAR INEWUALITIES?

Charles

complex perform

Angel

what is equation?

Charles Reply

what are equations?

Charles

Definition of economics according to karl Marx Thomas malthus Jeremy bentham David Ricardo J.K

Rakiya

Please help me is assignment

Rakiya

The 47th problem of Euclid

Kenneth

show that the set of all natural number form semi group under the composition of addition

Nikhil Reply

what is the meaning

Dominic

explain and give four Example hyperbolic function

Lukman Reply

_3_2_1

felecia

⅗ ⅔½

felecia

_½+⅔-¾

felecia

The denominator of a certain fraction is 9 more than the numerator. If 6 is added to both terms of the fraction, the value of the fraction becomes 2/3. Find the original fraction. 2. The sum of the least and greatest of 3 consecutive integers is 60. What are the valu

SABAL Reply

1. x + 6 2 -------------- = _ x + 9 + 6 3 x + 6 3 ----------- x -- (cross multiply) x + 15 2 3(x + 6) = 2(x + 15) 3x + 18 = 2x + 30 (-2x from both) x + 18 = 30 (-18 from both) x = 12 Test: 12 + 6 18 2 -------------- = --- = --- 12 + 9 + 6 27 3

Pawel

2. (x) + (x + 2) = 60 2x + 2 = 60 2x = 58 x = 29 29, 30, & 31

Pawel

Ifeanyi

on number 2 question How did you got 2x +2

Ifeanyi

combine like terms. x + x + 2 is same as 2x + 2

Pawel

x*x=2

felecia

2+2x=

felecia

×/×+9+6/1

Debbie

Q2 x+(x+2)+(x+4)=60 3x+6=60 3x+6-6=60-6 3x=54 3x/3=54/3 x=18 :. The numbers are 18,20 and 22

Naagmenkoma

Mark and Don are planning to sell each of their marble collections at a garage sale. If Don has 1 more than 3 times the number of marbles Mark has, how many does each boy have to sell if the total number of marbles is 113?

mariel Reply

Mark = x,. Don = 3x + 1 x + 3x + 1 = 113 4x = 112, x = 28 Mark = 28, Don = 85, 28 + 85 = 113

Pawel

how do I set up the problem?

Harshika Reply

what is a solution set?

Harshika

find the subring of gaussian integers?

Rofiqul

hello, I am happy to help!

Shirley Reply

please can go further on polynomials quadratic

Abdullahi

hi mam

Mark

I need quadratic equation link to Alpa Beta

Abdullahi Reply

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Source: OpenStax, College algebra. OpenStax CNX. Feb 06, 2015 Download for free at https://legacy.cnx.org/content/col11759/1.3

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