12.4 Rotation of axes

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In this section, you will:

Identify nondegenerate conic sections given their general form equations.
Use rotation of axes formulas.
Write equations of rotated conics in standard form.
Identify conics without rotating axes.

As we have seen, conic sections are formed when a plane intersects two right circular cones aligned tip to tip and extending infinitely far in opposite directions, which we also call a cone . The way in which we slice the cone will determine the type of conic section formed at the intersection. A circle is formed by slicing a cone with a plane perpendicular to the axis of symmetry of the cone. An ellipse is formed by slicing a single cone with a slanted plane not perpendicular to the axis of symmetry. A parabola is formed by slicing the plane through the top or bottom of the double-cone, whereas a hyperbola is formed when the plane slices both the top and bottom of the cone. See [link] .

Ellipses, circles, hyperbolas, and parabolas are sometimes called the nondegenerate conic sections , in contrast to the degenerate conic sections , which are shown in [link] . A degenerate conic results when a plane intersects the double cone and passes through the apex. Depending on the angle of the plane, three types of degenerate conic sections are possible: a point, a line, or two intersecting lines.

Identifying nondegenerate conics in general form

In previous sections of this chapter, we have focused on the standard form equations for nondegenerate conic sections. In this section, we will shift our focus to the general form equation, which can be used for any conic. The general form is set equal to zero, and the terms and coefficients are given in a particular order, as shown below.

A x^{2} + B x y + C y^{2} + D x + E y + F = 0

where $A, B,$ and $C$ are not all zero. We can use the values of the coefficients to identify which type conic is represented by a given equation.

You may notice that the general form equation has an $x y$ term that we have not seen in any of the standard form equations. As we will discuss later, the $x y$ term rotates the conic whenever $B$ is not equal to zero.

Conic Sections	Example
ellipse	$4 x^{2} + 9 y^{2} = 1$
circle	$4 x^{2} + 4 y^{2} = 1$
hyperbola	$4 x^{2} - 9 y^{2} = 1$
parabola	$4 x^{2} = 9 y or 4 y^{2} = 9 x$
one line	$4 x + 9 y = 1$
intersecting lines	$(x - 4) (y + 4) = 0$
parallel lines	$(x - 4) (x - 9) = 0$
a point	$4 x^{2} + 4 y^{2} = 0$
no graph	$4 x^{2} + 4 y^{2} = - 1$

A General Note

General form of conic sections

A conic section has the general form

A x^{2} + B x y + C y^{2} + D x + E y + F = 0

where $A, B,$ and $C$ are not all zero.

[link] summarizes the different conic sections where $B = 0,$ and $A$ and $C$ are nonzero real numbers. This indicates that the conic has not been rotated.

ellipse	$A x^{2} + C y^{2} + D x + E y + F = 0, A \neq C and A C > 0$
circle	$A x^{2} + C y^{2} + D x + E y + F = 0, A = C$
hyperbola	$A x^{2} - C y^{2} + D x + E y + F = 0 or - A x^{2} + C y^{2} + D x + E y + F = 0,$ where $A$ and $C$ are positive
parabola	$A x^{2} + D x + E y + F = 0 or C y^{2} + D x + E y + F = 0$

How To

Given the equation of a conic, identify the type of conic.

Rewrite the equation in the general form, $A x^{2} + B x y + C y^{2} + D x + E y + F = 0.$
Identify the values of A and C from the general form.
1. If $A$ and $C$ are nonzero, have the same sign, and are not equal to each other, then the graph may be an ellipse.
2. If $A$ and $C$ are equal and nonzero and have the same sign, then the graph may be a circle.
3. If $A$ and $C$ are nonzero and have opposite signs, then the graph may be a hyperbola.
4. If either $A$ or $C$ is zero, then the graph may be a parabola.
If B = 0, the conic section will have a vertical and/or horizontal axes. If B does not equal 0, as shown below, the conic section is rotated. Notice the phrase “may be” in the definitions. That is because the equation may not represent a conic section at all, depending on the values of A , B , C , D , E , and F . For example, the degenerate case of a circle or an ellipse is a point:
$A x^{2} + B y^{2} = 0,$ when A and B have the same sign.
The degenerate case of a hyperbola is two intersecting straight lines: $A x^{2} + B y^{2} = 0,$ when A and B have opposite signs.
On the other hand, the equation, $A x^{2} + B y^{2} + 1 = 0,$ when A and B are positive does not represent a graph at all, since there are no real ordered pairs which satisfy it.

Questions & Answers

Why is b in the answer

Dahsolar Reply

how do you work it out?

Brad Reply

answer

Ernest

heheheehe

Nitin

(Pcos∅+qsin∅)/(pcos∅-psin∅)

John Reply

how to do that?

Rosemary Reply

what is it about?

Amoah

how to answer the activity

Chabelita Reply

how to solve the activity

Chabelita

solve for X,,4^X-6(2^)-16=0

Alieu Reply

x4xminus 2

Lominate

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harish Reply

t he silly nut company makes two mixtures of nuts: mixture a and mixture b. a pound of mixture a contains 12 oz of peanuts, 3 oz of almonds and 1 oz of cashews and sells for $4. a pound of mixture b contains 12 oz of peanuts, 2 oz of almonds and 2 oz of cashews and sells for $5. the company has 1080

ZAHRO Reply

If  , , are the roots of the equation 3 2 0, x px qx r     Find the value of 1  .

Swetha Reply

Parts of a pole were painted red, blue and yellow. 3/5 of the pole was red and 7/8 was painted blue. What part was painted yellow?

Patrick Reply

Parts of the pole was painted red, blue and yellow. 3 /5 of the pole was red and 7 /8 was painted blue. What part was painted yellow?

Patrick

how I can simplify algebraic expressions

Katleho Reply

Lairene and Mae are joking that their combined ages equal Sam’s age. If Lairene is twice Mae’s age and Sam is 69 yrs old, what are Lairene’s and Mae’s ages?

Mary Reply

23yrs

Yeboah

lairenea's age is 23yrs

ACKA

Katleho

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Katleho

Laurene is 46 yrs and Mae is 23 is

Solomon

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christopher

age does not matter

christopher

solve for X, 4^x-6(2*)-16=0

Alieu

prove`x^3-3x-2cosA=0 (-π<A<=π

Mayank Reply

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Rose Reply

Excusme but what are you wrot?

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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