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Identifying Conic Sections
How do I determine whether the graph of an equation represents a conic, and if so, which conic does it represent, a circle, an ellipse, a parabola or a hyperbola? Created by K. Chiodo, HCPS
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General Form of a Conic Equation
We usually see conic equations written in General, or Implicit Form: where A, B, C, D, E and F are integers and A, B and C are NOT ALL equal to zero. Note: You may see some conic equations solved for y, but if the equation can be re-written into the form above, it is a conic equation!
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Please Note: A conic equation written in General Form doesn’t have to have all SIX terms! Several of the coefficients A, B, C, D, E and F can equal zero, as long as A, B and C don’t ALL equal zero. If A, B and C all equal zero, what kind of equation do you have? ... T H I N K... Linear!
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So, it’s a conic equation if...
the highest degree (power) of x and/or y is 2 (at least ONE has to be squared) the other terms are either linear, constant, or the product of x and y there are no variable terms with rational exponents (i.e. no radical expressions) or terms with negative exponents (i.e. no rational expressions)
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What values form an Ellipse?
The values of the coefficients in the conic equation determine the TYPE of conic. What values form an Ellipse? What values form a Hyperbola? What values form a Parabola?
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Ellipses... where A & C have the SAME SIGN For example:
NOTE: There is no Bxy term, and D, E & F may equal zero! For example:
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Ellipses... The General, or Implicit, Form of the equations can be converted to Graphing Form by completing the square and dividing so that the constant = 1. This is an ellipse since x & y are both squared, and both quadratic terms have the same sign! Center (-2, 0) Vert. Axis = √8 Hor. Axis = 2
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Ellipses... In this example, x2 and y2 are both negative (still the same sign), you can see in the final step that when we divide by negative 4 all of the terms are positive. Vert. axis = 2/√3 Hor. axis = 2 center (-1, 1)
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Ellipses…a special case!
When A & C are the same value as well as the same sign, the ellipse is the same length in all directions … Circle! it is a ... Center (-2, 0) Radius = √5
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Hyperbola... where A & C have DIFFERENT signs. For example:
NOTE: There is no Bxy term, and D, E & F may equal zero! For example:
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Hyperbola... The General, or Implicit, Form of the equations can be converted to Graphing Form by completing the square and dividing so that the constant = 1. This is a hyperbola since x & y are both squared, and the quadratic terms have different signs! Center (2,-1) y-axis=3 x-axis=2
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Hyperbola... In this example, the signs change, but since the quadratic terms still have different signs, it is still a hyperbola! Center (0,3) x-axis=2 y-axis=2
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Parabola... A Parabola can be oriented 2 different ways:
A parabola is vertical if the equation has an x squared term AND a linear y term; it may or may not have a linear x term & constant: A parabola is horizontal if the equation has a y squared term AND a linear x term; it may or may not have a linear y term & constant:
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Parabola …Vertical The following equations all represent vertical parabolas in general form; they all have a squared x term and a linear y term:
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Parabola …Vertical To write the equations in Graphing Form, complete the square for the x-terms. There are 2 popular conventions for writing parabolas in Graphing Form, both are given below: Vertex (2,3)
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Parabola …Vertical In this example, the signs must be changed at the end so that the y-term is positive, notice that the negative coefficient of the x squared term makes the parabola open downward. Vertex (-1,4)
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Parabola …Horizontal The following equations all represent horizontal parabolas in general form, they all have a squared y term and a linear x term:
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Parabola …Horizontal To write the equations in Graphing Form, complete the square for the y-terms. There are 2 popular conventions for writing parabolas in Graphing Form, both are given below: Vertex (1,-4)
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Parabola …Horizontal In this example, the signs must be changed at the end so that the x-term is positive; notice that the negative coefficient of the y squared term makes the parabola open to the left. Vertex (3,0)
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What About the term Bxy? None of the conic equations we have looked at so far included the term Bxy. This term leads to a hyperbolic graph: or, solved for y:
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Summary ... General Form of a Conic Equation:
where A, B, C, D, E and F are integers and A, B and C are NOT ALL equal to zero. Identifying a Conic Equation:
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Practice ... Identify each of the following equations as a(n):
(a) ellipse (b) circle (c) hyperbola (d) parabola (e) not a conic See if you can rewrite each equation into its Graphing Form!
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Answers ... (a) ellipse (b) circle (c) hyperbola (d) parabola (e) not a conic
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C H E Conic Sections ! P Created by K. Chiodo, HCPS
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