Presentation is loading. Please wait.

Presentation is loading. Please wait.

What type of conic is each?. Hyperbolas 5.4 (M3)

Published byBryce Higgins Modified over 9 years ago

Similar presentations

Presentation on theme: "What type of conic is each?. Hyperbolas 5.4 (M3)"— Presentation transcript:

1 What type of conic is each?

2 Hyperbolas 5.4 (M3)

3 What is the equation?

4

5

6

7

8

9 What is the equation of each graph? a. b. c.

10 What is the equation?

11

12

13

14

15

16 Place the equation with the graph. 1. 6.5.4. 3.2.

17 What do you notice? Standard Formula of a hyperbola is like an ellipse with subtraction. Standard Formula of a hyperbola is like an ellipse with subtraction. Its appearance is a broken ellipse turned in the opposite direction. Its appearance is a broken ellipse turned in the opposite direction. There are 2 asymptotes. There are 2 asymptotes. Positive term is the direction the “parabola” opens. Positive term is the direction the “parabola” opens. The term subtracted becomes the axis you “cut” from the ellipse. The term subtracted becomes the axis you “cut” from the ellipse.

18 Hyperbola Examples

19 Hyperbola Notes Horizontal Transverse Axis Center (0,0) Vertices (a,0) & (-a,0) (-a,0) Foci (c,0) & (-c, 0) (-c, 0) Asymptotes

20 Hyperbola Notes Horizontal Transverse Axis Equation

21 To find asymptotes

22 Hyperbola Notes Vertical Transverse Axis Center (0,0) Vertices (a,0) & (-a,0) (-a,0) Foci (c,0) & (-c, 0) (-c, 0) Asymptotes

23 Hyperbola Notes Vertical Transverse Axis Equation

24 To find asymptotes

25 Graphing a Hyperbola 1. Graph the center. 2. Take the square root of the positive denominator to find the vertices. 3. Graph the vertices with a point. 4. Take the square root of the negative denominator to find the co-vertices. 5. Graph the co-vertices with a dash. 6. Create the box. 7. Draw the 2 asymptotes as the 2 diagonals. 8. Go back to the vertices & graph the hyperbola going towards the asymptotes. 9. To find the foci, c 2 =a 2 + b 2

26 Write an equation of the hyperbola with foci (-5,0) & (5,0) and vertices (-3,0) & (3,0) a = 3 c = 5

27 Write an equation of the hyperbola with foci (0,-6) & (0,6) and vertices (0,-4) & (0,4) a = 4 c = 6

28 EXAMPLE 1 Graph an equation of a hyperbola Graph 25y 2 – 4x 2 = 100. Identify the vertices, foci, and asymptotes of the hyperbola. SOLUTION STEP 1 Rewrite the equation in standard form. 25y 2 – 4x 2 = 100 Write original equation. 25y 2 100 – 4x 2 100 = Divide each side by 100. y 2 4 – y 2 25 = 1 Simplify.

29 EXAMPLE 1 Graph an equation of a hyperbola STEP 2 Identify the vertices, foci, and asymptotes. Note that a 2 = 4 and b 2 = 25, so a = 2 and b = 5. The y 2 - term is positive, so the transverse axis is vertical and the vertices are at (0, +2). Find the foci. c 2 = a 2 – b 2 = 2 2 – 5 2 = 29. so c = 29. The foci are at ( 0, + ) 29. (0, + 5.4). The asymptotes are y = abab + x or 2525 + x y =

30 EXAMPLE 1 Graph an equation of a hyperbola STEP 3 Draw the hyperbola. First draw a rectangle centered at the origin that is 2a = 4 units high and 2b = 10 units wide. The asymptotes pass through opposite corners of the rectangle. Then, draw the hyperbola passing through the vertices and approaching the asymptotes.

31 EXAMPLE 2 Write an equation of a hyperbola Write an equation of the hyperbola with foci at (–4, 0) and (4, 0) and vertices at (–3, 0) and (3, 0). SOLUTION The foci and vertices lie on the x -axis equidistant from the origin, so the transverse axis is horizontal and the center is the origin. The foci are each 4 units from the center, so c = 4. The vertices are each 3 units from the center, so a = 3.

32 EXAMPLE 2 Write an equation of a hyperbola Because c 2 = a 2 + b 2, you have b 2 = c 2 – a 2. Find b 2. b 2 = c 2 – a 2 = 4 2 – 3 2 = 7 Because the transverse axis is horizontal, the standard form of the equation is as follows: x 2 3 2 – y27y27 = 1 Substitute 3 for a and 7 for b 2. x 2 9 – y27y27 = 1 Simplify

33 GUIDED PRACTICE for Examples 1 and 2 Graph the equation. Identify the vertices, foci, and asymptotes of the hyperbola. 1. x 2 16 – y 2 49 = 1 SOLUTION (+4, 0), ( + ), 65, 0 7474 + x y =

34 GUIDED PRACTICE for Examples 1 and 2 2. y 2 36 – x 2 = 1 SOLUTION (0, +6), ( 0, + ), 37 y = +6x

35 GUIDED PRACTICE for Examples 1 and 2 3. 4y 2 – 9x 2 = 36 SOLUTION ( 0, + ), 13 (0, +3), 3232 + x y =

36 GUIDED PRACTICE for Examples 1 and 2 Write an equation of the hyperbola with the given foci and vertices. 4. Foci: (–3, 0), (3, 0) Vertices: (–1, 0), (1, 0) SOLUTION x 2 – y28y28 = 1 5. Foci: (0, – 10), (0, 10) Vertices: (0, – 6), (0, 6) SOLUTION = 1 y 2 36 – x 2 64

Download ppt "What type of conic is each?. Hyperbolas 5.4 (M3)"

Similar presentations

C O N I C S E C T I O N S Part 4: Hyperbola.

C O N I C S E C T I O N S Part 4: Hyperbola.
Conics D.Wetzel 2009.

Conics D.Wetzel 2009.
10 – 5 Hyperbolas. Hyperbola Hyperbolas Has two smooth branches The turning point of each branch is the vertex Transverse Axis: segment connecting the.

10 – 5 Hyperbolas. Hyperbola Hyperbolas Has two smooth branches The turning point of each branch is the vertex Transverse Axis: segment connecting the.
Projects are due ACT Questions?.

Projects are due ACT Questions?.
EXAMPLE 6 Classify a conic

EXAMPLE 6 Classify a conic
EXAMPLE 1 Graph an equation of a parabola SOLUTION STEP 1 Rewrite the equation in standard form. 1818 x = – Write original equation. 1818 Graph x = – y.

EXAMPLE 1 Graph an equation of a parabola SOLUTION STEP 1 Rewrite the equation in standard form x = – Write original equation Graph x = – y.
Graph an equation of a parabola

Graph an equation of a parabola
8.5 Graph and Write Equations of Hyperbolas p.518 What are the parts of a hyperbola? What are the standard form equations of a hyperbola? How do you know.

8.5 Graph and Write Equations of Hyperbolas p.518 What are the parts of a hyperbola? What are the standard form equations of a hyperbola? How do you know.
Hyperbolas and Rotation of Conics

Hyperbolas and Rotation of Conics
10-4 Hyperbolas Warm Up Lesson Presentation Lesson Quiz Holt Algebra 2.

10-4 Hyperbolas Warm Up Lesson Presentation Lesson Quiz Holt Algebra 2.
Copyright © Cengage Learning. All rights reserved. Conic Sections.

Copyright © Cengage Learning. All rights reserved. Conic Sections.
10.5 - Hyperbolas.

Hyperbolas.
10.5 Hyperbolas What you should learn: Goal1 Goal2 Graph and write equations of Hyperbolas. Identify the Vertices and Foci of the hyperbola. 10.5 Hyperbolas.

10.5 Hyperbolas What you should learn: Goal1 Goal2 Graph and write equations of Hyperbolas. Identify the Vertices and Foci of the hyperbola Hyperbolas.
11.4 Hyperbolas ©2001 by R. Villar All Rights Reserved.

11.4 Hyperbolas ©2001 by R. Villar All Rights Reserved.
10-4 Hyperbolas Warm Up Lesson Presentation Lesson Quiz Holt Algebra 2.

10-4 Hyperbolas Warm Up Lesson Presentation Lesson Quiz Holt Algebra 2.
10.3 Hyperbolas. Circle Ellipse Parabola Hyperbola Conic Sections See video!

10.3 Hyperbolas. Circle Ellipse Parabola Hyperbola Conic Sections See video!
Section 9-5 Hyperbolas. Objectives I can write equations for hyperbolas I can graph hyperbolas I can Complete the Square to obtain Standard Format of.

Section 9-5 Hyperbolas. Objectives I can write equations for hyperbolas I can graph hyperbolas I can Complete the Square to obtain Standard Format of.
C.P. Algebra II The Conic Sections Index The Conics The Conics Translations Completing the Square Completing the Square Classifying Conics Classifying.

C.P. Algebra II The Conic Sections Index The Conics The Conics Translations Completing the Square Completing the Square Classifying Conics Classifying.
Sullivan PreCalculus Section 9.4 The Hyperbola Objectives of this Section Find the Equation of a Hyperbola Graph Hyperbolas Discuss the Equation of a Hyperbola.

Sullivan PreCalculus Section 9.4 The Hyperbola Objectives of this Section Find the Equation of a Hyperbola Graph Hyperbolas Discuss the Equation of a Hyperbola.
EXAMPLE 1 Graph the equation of a translated circle

EXAMPLE 1 Graph the equation of a translated circle

Similar presentations

Ads by Google