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The Hyperbola. x y Transverse axis Vertex Focus Center A hyperbola is the set of points in a plane the difference whose distances from two fixed points.

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Presentation on theme: "The Hyperbola. x y Transverse axis Vertex Focus Center A hyperbola is the set of points in a plane the difference whose distances from two fixed points."— Presentation transcript:

1 The Hyperbola

2 x y Transverse axis Vertex Focus Center A hyperbola is the set of points in a plane the difference whose distances from two fixed points (called foci) is constant Definition of a Hyperbola

3 x y Transverse axis x y (-a, 0) (a, 0) (-c, 0)(c, 0)(0, -a) (0, -c) (0, a) (0, c) Standard Forms of the Equations of a Hyperbola The standard form of the equation of the hyperbola with center at the origin is The left equation has a transverse axis that lies on the x-axis shown in the graph on the left. The right equation’s transverse axis lies on the y- axis. The vertices are a units from the center and the foci are c units from the center. For both equations, b 2 = c 2 – a 2.

4 Find the standard form of the equation of a hyperbola with foci at (0, -3) and (0, 3) and vertices (0, -2) and (0, 2). Text Example SolutionBecause the foci are located at (0, -3) and (0, 3), on the y-axis, the transverse axis lies on the y-axis. The center of the hyperbola is midway between the foci, located at (0, 0). Thus, the form of the equation is We need to determine the values for a 2 and b 2. The distance from the center (0, 0) to either vertex, (0, -2) or (0, 2) is 2, so a = 2.

5 Find the standard form of the equation of a hyperbola with foci at (0, -3) and (0, 3) and vertices (0, -2) and (0, 2). Solution -5-4-3-212345 5 4 3 2 1 -2 -3 -4 -5 Text Example cont. We must still find b 2. The distance from the center, (0, 0), to either focus, (0, -3) or (0, 3) is 3. Thus, c = 3. Because b 2 = c 2 – a 2, we have b 2 = c 2 – a 2 = 9 – 4 = 5. Substituting 5 for b 2 in the last equation gives us the standard form of the hyperbola’s equation. The equation is

6 The Asymptotes of a Hyperbola Centered at the Origin The hyperbola has a horizontal transverse axis and two asymptotes The hyperbola has a vertical transverse axis and two asymptotes

7 Graphing Hyperbolas 1.Locate the vertices. 2.Use dashed lines to draw the rectangle centered at the origin with sides parallel to the axes, crossing one axis at +a and the other at +b. 3.Use dashed lines to draw the diagonals of this rectangle and extend them to obtain the asymptotes. 4.Draw the two branches of the hyperbola by starting at each vertex and approaching the asymptotes.

8 Example Graph: Solution: Center (3,1) a=2, b=5 c 2 = 4+25= 29 y= ±5/2(x-3)+1

9 Example cont.

10 (h, k – a) (h, k + a) (h, k – c) (h, k + c) Parallel to the y-axis, vertical (h, k) b 2 = c 2 – a 2 (h – a, k) (h + a, k) (h – c, k) (h + c, k) Parallel to the x-axis, horizontal (h, k) b 2 = c 2 – a 2 VerticesFociTransverse AxisCenterEquation (h, k) x y x Focus (h – c, k)Focus (h + c, k) Vertex (h – a, k)Vertex (h + a, k) Focus (h + c, k) Vertex (h + a, k) Focus (h – c, k) Vertex (h + a, k) Standard Forms of Equations of Hyperbolas Centered at (h,k)

11 Graph: Where are the foci located? We see that h = 2 and k = 3. Thus, the center of the hyperbola, (h, k), is (2, 3). We can graph the hyperbola by using vertices, asymptotes, and our four-step graphing procedure. Text Example SolutionIn order to graph the hyperbola, we need to know its center (h, k). In the standard forms of the equations centered at (h, k), h is the number subtracted from x and k is the number subtracted from y.

12 Based on the standard form of the equation with a horizontal transverse axis, the vertices are a units to the right and to the left of the center. Because a 2 = 16, a = 4. This means that the vertices are 4 units to the right and left of the center, (2, 3). Four units to the right of (2, 3) puts one vertex at (6, 3). Four units to the left puts the other vertex at (-2, 3). a = 4 1 -5-4-3-22345 5 4 3 2 1 678910 8 7 6 a = 4 (-2, 3) (6, 3) (2, 3) Solution Step 1Locate the vertices. To do this, we must identify a 2. Text Example cont.

13 Step 2Draw a rectangle. Because a 2 = 16 and b 2 = 9, a = 4 and b = 3. The rectangle passes through points that are 4 units to the right and left of the center (the vertices are located here) and 3 units above and below the center. The rectangle is shown using dashed lines. Solution 1 (-2, 3) -5-4-3-22345 5 4 3 2 1 678910 8 7 6 (6, 3) (2, 3) Text Example cont.

14 1 (-2, 3) -5-4-3-22345 5 4 3 2 1 678910 8 7 6 (6, 3) (2, 3) Text Example cont. Solution Step 3Draw extended diagonals of the rectangle to obtain the asymptotes. We draw dashed lines through the opposite corners of the rectangle to obtain the graph of the asymptotes. The equations of the asymptotes of the hyperbola are y - 3 =  3/4 (x - 2)

15 Step 4Draw the two branches of the hyperbola by starting at each vertex and approaching the asymptotes. The hyperbola is shown below. The foci are located c units to the right and left of the center. We find c using c 2 = a 2 + b 2. c 2 = 16 + 9 = 25 Because c 2 = 25, c = 5. This means that the foci are 5 units to the right and left of the center, (2, 3). Five units to the right of (2, 3) puts one focus at (7, 3). Five units to the left of the center puts the other focus at (-3, 3). Solution 1 (-2, 3) -5-4-3-22345 5 4 3 2 1 678910 8 7 6 (6, 3) (2, 3) Text Example cont.

16 The Hyperbola

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