Study Guide and Review

Similar documents
Unit 9: Conic Sections Name Per. Test Part 1

Algebra 1 Course Title

Gouvernement du Québec Ministère de l Éducation, ISBN

Algebra 2 Chapter 1 Vocabulary. identity - A statement that equates two equivalent expressions.

Advanced Math Study Guide

Algebra 2 Year-at-a-Glance Leander ISD st Six Weeks 2nd Six Weeks 3rd Six Weeks 4th Six Weeks 5th Six Weeks 6th Six Weeks

Pre Calculus Math 40S: Explained!

11.1 Parabolas Name: 1

What is a parabola? It is geometrically defined by a set of points or locus of points that are

Estimated Pre Calculus Pacing Timeline

x 2 + y 2 = 1 y 1 = x 2 + 2x y = x 2 + 2x + 1

Graphing Quadratic Functions

Thnkwell s Homeschool Precalculus Course Lesson Plan: 36 weeks

Determine whether the following lines intersect, are parallel, or skew. L 1 : x = 6t y = 1 + 9t z = 3t. x = 1 + 2s y = 4 3s z = s

New York State Student Learning Objective: Regents Geometry

Geometry Enduring Understandings Students will understand 1. that all circles are similar.

Parametric Equations and the Parabola (Extension 1)

Algebra II. Weeks 1-3 TEKS

Ax 2 Cy 2 Dx Ey F 0. Here we show that the general second-degree equation. Ax 2 Bxy Cy 2 Dx Ey F 0. y X sin Y cos P(X, Y) X

ME 111: Engineering Drawing

Conic Sections Assignment

12-1 Representations of Three-Dimensional Figures

42 CHAPTER 1. VECTORS AND THE GEOMETRY OF SPACE. Figure 1.18: Parabola y = 2x Brief review of Conic Sections

Algebra II and Trigonometry

THE PARABOLA section

Prentice Hall Mathematics: Algebra Correlated to: Utah Core Curriculum for Math, Intermediate Algebra (Secondary)

8-3 Dot Products and Vector Projections

ALGEBRA 2: 4.1 Graph Quadratic Functions in Standard Form

March 2013 Mathcrnatics MATH 92 College Algebra Kerin Keys. Dcnnis. David Yec' Lscture: 5 we ekly (87.5 total)

Algebra and Geometry Review (61 topics, no due date)

Warm-Up y. What type of triangle is formed by the points A(4,2), B(6, 1), and C( 1, 3)? A. right B. equilateral C. isosceles D.

Contents. 2 Lines and Circles Cartesian Coordinates Distance and Midpoint Formulas Lines Circles...

Dear Accelerated Pre-Calculus Student:

Graphs of Polar Equations

South Carolina College- and Career-Ready (SCCCR) Pre-Calculus

a. all of the above b. none of the above c. B, C, D, and F d. C, D, F e. C only f. C and F

PARABOLAS AND THEIR FEATURES

PRACTICE PROBLEMS IN ALGEBRA, TRIGONOMETRY, AND ANALYTIC GEOMETRY

Equations. #1-10 Solve for the variable. Inequalities. 1. Solve the inequality: Solve the inequality: 4 0

Section 10.5 Rotation of Axes; General Form of a Conic

COLLEGE ALGEBRA LEARNING COMMUNITY

Classroom Tips and Techniques: The Student Precalculus Package - Commands and Tutors. Content of the Precalculus Subpackage

What are the place values to the left of the decimal point and their associated powers of ten?

ab = c a If the coefficients a,b and c are real then either α and β are real or α and β are complex conjugates

MSLC Workshop Series Math Workshop: Polynomial & Rational Functions

Algebra II A Final Exam

Simplify the rational expression. Find all numbers that must be excluded from the domain of the simplified rational expression.

2.5 Transformations of Functions

4.4 Transforming Circles

ME 111: Engineering Drawing

SECTION 2.2. Distance and Midpoint Formulas; Circles

ax 2 by 2 cxy dx ey f 0 The Distance Formula The distance d between two points (x 1, y 1 ) and (x 2, y 2 ) is given by d (x 2 x 1 )

Access Code: RVAE4-EGKVN Financial Aid Code: 6A9DB-DEE3B-74F

Administrative - Master Syllabus COVER SHEET

The Distance Formula and the Circle

Astromechanics Two-Body Problem (Cont)

Math Placement Test Study Guide. 2. The test consists entirely of multiple choice questions, each with five choices.

Higher Education Math Placement

8.9 Intersection of Lines and Conics

Algebra 2: Q1 & Q2 Review

1. a. standard form of a parabola with. 2 b 1 2 horizontal axis of symmetry 2. x 2 y 2 r 2 o. standard form of an ellipse centered

7.1 Graphs of Quadratic Functions in Vertex Form

Using GeoGebra to create applets for visualization and exploration.

MATH 110 College Algebra Online Families of Functions Transformations

MATH 21. College Algebra 1 Lecture Notes

TI-Nspire Technology Version 3.2 Release Notes

11.1. Objectives. Component Form of a Vector. Component Form of a Vector. Component Form of a Vector. Vectors and the Geometry of Space

MAC Learning Objectives. Module 10. Polar Form of Complex Numbers. There are two major topics in this module:

Introduction to CATIA V5

The Geometry of Piles of Salt Thinking Deeply About Simple Things

Geometry. Higher Mathematics Courses 69. Geometry

Sketcher. Preface What's New? Getting Started Basic Tasks Customizing Workbench Description Glossary Index

MATH APPLICATIONS CURRICULUM

MATH 095, College Prep Mathematics: Unit Coverage Pre-algebra topics (arithmetic skills) offered through BSE (Basic Skills Education)

6.1 Add & Subtract Polynomial Expression & Functions

Students Currently in Algebra 2 Maine East Math Placement Exam Review Problems

Week 1: Functions and Equations

Chapter 4. Polynomial and Rational Functions. 4.1 Polynomial Functions and Their Graphs

olby Community College

Lecture 8 : Coordinate Geometry. The coordinate plane The points on a line can be referenced if we choose an origin and a unit of 20

GEOMETRY COMMON CORE STANDARDS

Notes for EER #4 Graph transformations (vertical & horizontal shifts, vertical stretching & compression, and reflections) of basic functions.

Background Information

Algebra Geometry Glossary. 90 angle

Lesson 9.1 Solving Quadratic Equations

Algebra 2: Themes for the Big Final Exam

Gymnázium, Brno, Slovanské nám. 7, SCHEME OF WORK Mathematics SCHEME OF WORK. cz

Geometry Progress Ladder

MA107 Precalculus Algebra Exam 2 Review Solutions

Example SECTION X-AXIS - the horizontal number line. Y-AXIS - the vertical number line ORIGIN - the point where the x-axis and y-axis cross

Calculus 1st Semester Final Review

Determine If An Equation Represents a Function

7.3 Parabolas. 7.3 Parabolas 505

CRLS Mathematics Department Algebra I Curriculum Map/Pacing Guide

G r a d e 1 0 I n t r o d u c t i o n t o A p p l i e d a n d P r e - C a l c u l u s M a t h e m a t i c s ( 2 0 S ) Final Practice Exam

Linear algebra and the geometry of quadratic equations. Similarity transformations and orthogonal matrices

COLLEGE ALGEBRA. Paul Dawkins

How To Understand And Solve Algebraic Equations

Algebra II End of Course Exam Answer Key Segment I. Scientific Calculator Only

REVIEW OF CONIC SECTIONS

Transcription:

For each equation, identify the vertex, focus, axis of symmetry, and directrix. Then graph the 11. (x + 3) 2 = 12(y + 2) (x + 3) 2 = 12(y + 2) The equation is in standard form and the squared term is x, which means that the parabola opens vertically. The equation is in the form (x h) 2 = 4p (y k), so h = 3 and k = 2. Because 4p = 12 and p = 3, the graph opens up. Use the values of h, k, and p to determine the characteristics of the vertex: ( 3, 2) (h, k) directrix: y = 5 y = k p focus: ( 3, 1) (h, k + p ) axis of symmetry: x = 3 x = h 12. (y 2) 2 = 8(x 5) (y 2) 2 = 8(x 5) The equation is in standard form and the squared term is y, which means that the parabola opens horizontally. The equation is in the form (y k) 2 = 4p (x h), so h = 5 and k = 2. Because 4p = 8 and p = 2, the graph opens to the right. Use the values of h, k, and p to determine the characteristics of the vertex: (5, 2) (h, k) directrix: x = 3 x = h p focus: (7, 2) (h + p, k) axis of symmetry: y = 2 y = k Graph the vertex, focus, axis, and directrix of the Then make a table of values to graph the general shape of the curve. Graph the vertex, focus, axis, and directrix of the Then make a table of values to graph the general shape of the curve. esolutions Manual - Powered by Cognero Page 1

13. (x 2) 2 = 4(y + 1) (x 2) 2 = 4(y + 1) The equation is in standard form and the squared term is x, which means that the parabola opens vertically. The equation is in the form (x h) 2 = 4p (y k), so h = 2 and k = 1. Because 4p = 4 and p = 1, the graph opens down. Use the values of h, k, and p to determine the characteristics of the vertex: (2, 1) (h, k) directrix: y = 0 y = k p focus: (2, 2) (h, k + p ) axis of symmetry: x = 2 x = h Graph the vertex, focus, axis, and directrix of the Then make a table of values to graph the general shape of the curve. 14. (x 5) = (y 3) 2 (x 5) = (y 3) 2 The equation is in standard form and the squared term is y, which means that the parabola opens horizontally. The equation is in the form (y k) 2 = 4p (x h), so h = 5 and k = 3. Because 4p = p = and, the graph opens to the right. Use the values of h, k, and p to determine the characteristics of the vertex: (5, 3) (h, k) directrix: x = 2 x = h p focus: (h + p, k) axis of symmetry: y = 3 y = k Graph the vertex, focus, axis, and directrix of the Then make a table of values to graph the general shape of the curve. esolutions Manual - Powered by Cognero Page 2

Write an equation for and graph a parabola with the given focus F and vertex V. 15. F(1, 1), V(1, 5) Because the focus and vertex share the same x- coordinate, the graph is vertical. The focus is (h, k + p), so the value of p is 1 5 or 4. Because p is negative, the graph opens down. Write the equation for the parabola in standard form using the values of h, p, and k. 4p (y k) = (x h) 2 4( 4)(y 5) = (x 1) 2 16(y 5) = (x 1) 2 The standard form of the equation is (x 1) 2 = 16 (y 5). Graph the vertex and focus. Then make a table of values to graph the 16. F( 3, 6), V(7, 6) Because the focus and vertex share the same y- coordinate, the graph is horizontal. The focus is (h + p, k), so the value of p is 3 7 or 10. Because p is negative, the graph opens to the left. Write the equation for the parabola in standard form using the values of h, p, and k. (y h) 2 = 4p (x k) (y 6) 2 = 4( 10)(x 7) (y 6) 2 = 40(x 7) The standard form of the equation is (y 6) 2 = 40 (x 7). Graph the vertex and focus. Then make a table of values to graph the esolutions Manual - Powered by Cognero Page 3

17. F( 2, 3), V( 2, 1) Because the focus and vertex share the same x- coordinate, the graph is vertical. The focus is (h, k + p), so the value of p is 3 1 or 4. Because p is negative, the graph opens down. Write the equation for the parabola in standard form using the values of h, p, and k. 4p (y k) = (x h) 2 4( 4)(y 1) = [x ( 2)] 2 16(y 1) = (x + 2) 2 The standard form of the equation is (x + 2) 2 = 16 (y 1). Graph the vertex and focus. Then make a table of values to graph the 18. F(3, 4), V(3, 2) F(3, 4), V(3, 2) Because the focus and vertex share the same x- coordinate, the graph is vertical. The focus is (h, k + p), so the value of p is 4 ( 2) or 2. Because p is negative, the graph opens down. Write the equation for the parabola in standard form using the values of h, p, and k. 4p (y k) = (x h) 2 4( 2)[y ( 2)] = (x 3) 2 8(y + 2) = (x 3) 2 The standard form of the equation is (x 3) 2 = 8(y + 2). Graph the vertex and focus. Then make a table of values to graph the esolutions Manual - Powered by Cognero Page 4

Graph the ellipse given by each equation. 23. + = 1 The ellipse is in standard form. The values of h and k are 3 and 6, so the center is at (3, 6). a = or 5 b = or 4 c = = 3 orientation: vertical vertices: (3, 1), (3, 11) covertices: (7, 6), ( 1, 6) Write an equation for the ellipse with each set of characteristics. 25. foci (1, 2), (9, 2); length of minor axis equals 6 The length of the minor axis is 2b. So, b = 3 and b 2 = 9. The distance between the foci is 2c. 2c = 9 1 c = 4 c 2 = 16 a 2 = b 2 + c 2 a 2 = 25 The center is the midpoint of the foci. = 5 center: (5, 2) + = 1 Write each equation in standard form. Identify the related conic. 27. x 2 2x + y 2 4y 25 = 0 x 2 2x + y 2 4y 25 = 0 x 2 2x + 1 + y 2 4y + 4 25 1 4 = 0 (x 1) 2 + (y 2) 2 30 = 0 (x 1) 2 + (y 2) 2 = 30 The conic is a circle because the equation is of the form (x h) 2 + (y k) 2 = r 2. esolutions Manual - Powered by Cognero Page 5

29. x 2 4x + 4y + 24 = 0 x 2 4x + 4y + 24 = 0 x 2 4x + 4 + 4y + 24 4 = 0 (x 2) 2 + 4(y + 5) = 0 (x 2) 2 = 4(y + 5) Because only one term is squared, the graph is a Graph the hyperbola given by each equation. Graph the hyperbola given by each equation. 31. = 1 = 1 The equation is in standard form, and h = 7 and k = 6. Because a 2 = 18 and b 2 = 36, a = 4.2 and b = 6. The values of a and b can be used to find c. c 2 = a 2 + b 2 c 2 = 18 + 36 c 2 = 54 c = 7.3 Use h, k, a, b, and c to determine the characteristics of the hyperbola. orientation: In the standard form of the equation, the y term is being subtracted. Therefore, the orientation of the hyperbola is horizontal. center: (h, k) = ( 7, 6) vertices: (h ± a, k) = ( 11.2, 6) and ( 2.8, 6) foci: (h ± c, k) = (0.3, 6) and ( 14.3, 6) asymptotes: Graph the center, vertices, foci, and asymptotes. Then make a table of values to sketch the hyperbola. esolutions Manual - Powered by Cognero Page 6

33. x 2 y 2 2x + 4y 7 = 0 Convert the equation to standard form. x 2 y 2 2x + 4y 7 = 0 x 2 2x + 1 (y 2 4y + 4) 7 1 + 4 = 0 (x 1) 2 (y 2) 2 = 4 The equation is in standard form, and h = 1 and k = 2. Because a 2 = 4 and b 2 = 4, a = 2 and b = 2. The values of a and b can be used to find c. c 2 = a 2 + b 2 c 2 = 4 + 4 c 2 = 8 c = 2.8 Use h, k, a, b, and c to determine the characteristics of the hyperbola. orientation: In the standard form of the equation, the y term is being subtracted. Therefore, the orientation of the hyperbola is horizontal. center: (h, k) = (1, 2) vertices: (h ± a, k) = ( 1, 2) and (3, 2) foci: (h ± c, k) = ( 1.8, 2) and (3.8, 2) asymptotes: = 1 Write an equation for the hyperbola with the given characteristics. 35. foci (0, 5), (0, 5); vertices (0, 3), (0, 3) Because the y coordinates of the vertices are the same, the transverse axis is horizontal, and the standard form of the equation is = 1. The center is the midpoint of the segment between the foci, or (0, 0). So, h = 0 and k = 0. You can find c by determining the distance from a focus to the center. One focus is located at (0, 5), which is 5 units from (0, 0). So, c = 5 and c 2 = 25. You can find a by determining the distance from a vertex to the center. One vertex is located at (0, 3), which is 3 units from (0, 0). So, a = 3 and a 2 = 9. Now you can use the values of c and a to find b. Graph the center, vertices, foci, and asymptotes. Then make a table of values to sketch the hyperbola. b 2 2 2 = c a b 2 = 25 9 b 2 = 16 b = 4 Using the values of h, k, a, and b, the equation for the hyperbola is = 1. esolutions Manual - Powered by Cognero Page 7

37. vertices (2, 0), ( 2, 0); asymptotes y = ± x Because the y coordinates of the foci are the same, the transverse axis is horizontal, and the standard form of the equation is = 1. The center is the midpoint of the segment between the vertices, or (0, 0).So, h = 0 and k = 0. To find a, determine the distance from a vertex to the center. One vertex is located at (2, 0), which is 2 units from (0, 0). So, a = 2 and a 2 = 4. Because the slopes of the asymptotes are, using the positive slope, b = 3 and b 2 = 9. Using the values of h, k, a, and b, the equation for the hyperbola is = 1. Use the discriminant to identify each conic section. 39. 4y 2 x 40y + 107 = 0 B 2 4AC = 0 0(4) = 0 The discriminant is 0, so the conic is a esolutions Manual - Powered by Cognero Page 8

2024 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information