Math 370 Exam 5 Review Name

Math 370 Exam 5 Review Name Graph the ellipse and locate the foci. 1) x2 6 + y2 = 1 1) Objective: (9.1) Graph Ellipses Not Centered at the Origin Graph the ellipse. 2) (x + 2)2 + (y + 1)2 9 = 1 2) Objective: (9.1) Graph Ellipses Not Centered at the Origin Convert the equation to the standard form for an ellipse by completing the square on x and y. 3) 16x 2 + 25y 2-32x - 150y - 159 = 0 3) Objective: (9.1) Graph Ellipses Not Centered at the Origin ) The arch beneath a bridge is semi-elliptical, a one-way roadway passes under the arch. The width of the roadway is 0 feet and the height of the arch over the center of the roadway is 12 feet. Two trucks plan to use this road. They are both 8 feet wide. Truck 1 has an overall height of 11 feet and Truck 2 has an overall height of 12 feet. Draw a rough sketch of the situation and determine which of the trucks can pass under the bridge. Objective: (9.1) Solve Applied Problems Involving Ellipses )

Find the solution set for the system by graphing both of the system's equations in the same rectangular coordinate system and finding points of intersection. 5) x 2 + y 2 = 25 25x 2 + 16y 2 = 00 5) Objective: (9.1) Additional Concepts Find the vertices and locate the foci for the hyperbola whose equation is given. 6) 9x 2-100y 2 = 900 6) Objective: (9.2) Locate a Hyperbola's Vertices and Foci Find the standard form of the equation of the hyperbola satisfying the given conditions. 7) Endpoints of transverse axis: (-3, 0), (3, 0); foci: (-8, 0), (8, 0) 7) Objective: (9.2) Write Equations of Hyperbolas in Standard Form Convert the equation to the standard form for a hyperbola by completing the square on x and y. 8) 9y 2-16x 2 + 18y + 6x - 199 = 0 8) Objective: (9.2) Write Equations of Hyperbolas in Standard Form Find the location of the center, vertices, and foci for the hyperbola described by the equation. 9) (y + 2)2 - (x - 2)2 9 = 1 9) Objective: (9.2) Graph Hyperbolas Not Centered at the Origin

10) A satellite following the hyperbolic path shown in the picture turns rapidly at (0, 2) and 10) then moves closer and closer to the line y = 3 x as it gets farther from the tracking station at 2 the origin. Find the equation that describes the path of the satellite if the center of the hyperbola is at (0, 0). (0, 2) y = 3 2 x Objective: (9.2) Solve Applied Problems Involving Hyperbolas Find the focus and directrix of the parabola with the given equation. 11) y 2 = x 11) Objective: (9.3) Graph Parabolas with Vertices at the Origin Graph the parabola. 12) y 2 = -16x 12) Objective: (9.3) Graph Parabolas with Vertices at the Origin

13) x 2 = 18y 13) Objective: (9.3) Graph Parabolas with Vertices at the Origin Find the standard form of the equation of the parabola using the information given. 1) Vertex: (6, -); Focus: (3, -) 1) Objective: (9.3) Write Equations of Parabolas in Standard Form Find the vertex, focus, and directrix of the parabola with the given equation. 15) (y - 3) 2 = -16(x - ) 15) Objective: (9.3) Graph Parabolas with Vertices Not at the Origin Graph the parabola with the given equation. 16) (x + 2) 2 = 8(y + 2) 16) Objective: (9.3) Graph Parabolas with Vertices Not at the Origin MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 17) A bridge is built in the shape of a parabolic arch. The bridge arch has a span of 166 feet and a maximum height of 0 feet. Find the height of the arch at 10 feet from its center. A) 0.1 ft B) 2.3 ft C) 5.2 ft D) 39. ft Objective: (9.3) Solve Applied Problems Involving Parabolas 17) Parametric equations and a value for the parameter t are given. Find the coordinates of the point on the plane curve described by the parametric equations corresponding to the given value of t. 18) x = t 3 + 1, y = 9 - t ; t = 2 18) Objective: (9.5) Use Point Plotting to Graph Plane Curves Described by Parametric Equations

Use point plotting to graph the plane curve described by the given parametric equations. 19) x = 2t - 1, y = t 2 + 5; - t 19) Objective: (9.5) Use Point Plotting to Graph Plane Curves Described by Parametric Equations 20) x = 5 sin t, y = 5 cos t; 0 t 2 20) Objective: (9.5) Use Point Plotting to Graph Plane Curves Described by Parametric Equations Eliminate the parameter t. Find a rectangular equation for the plane curve defined by the parametric equations. 21) x = 6 cos t, y = 6 sin t; 0 t 2 21) Objective: (9.5) Eliminate the Parameter 22) x = 2 + sec t, y = 5 + 2 tan t; 0 < t < 2 22) Objective: (9.5) Eliminate the Parameter Eliminate the parameter. Write the resulting equation in standard form. 23) An ellipse: x = 3 + 2 cos t, y = 5 + 3 sin t 23) Objective: (9.5) Eliminate the Parameter Find a set of parametric equations for the conic section or the line. 2) Hyperbola: Vertices: (3, 0); Vertices: (-3, 0); Foci: (5, 0) and (-5, 0) 2) Objective: (9.5) Find Parametric Equations for Functions

25) A baseball pitcher throws a baseball with an initial velocity of 136 feet per second at an angle of 20 to the horizontal. The ball leaves the pitcher's hand at a height of feet. Find parametric equations that describe the motion of the ball as a function of time. How long is the ball in the air? When is the ball at its maximum height? What is the maximum height of the ball? Objective: (9.5) Understand the Advantages of Parametric Representations 25) Identify the conic section that the polar equation represents. Describe the location of a directrix from the focus located at the pole. 2 26) r = 26) 1-2 cos Objective: (9.6) Define Conics in Terms of a Focus and a Directrix 27) r = 2 + 2 sin 27) Objective: (9.6) Define Conics in Terms of a Focus and a Directrix 28) r = 7 9-3 sin 28) Objective: (9.6) Define Conics in Terms of a Focus and a Directrix Graph the polar equation. 9 29) r = 3-3 cos Identify the directrix and vertex. 29) Objective: (9.6) Graph the Polar Equations of Conics

12 30) r = - cos Identify the directrix and vertices. 30) Objective: (9.6) Graph the Polar Equations of Conics 31) r = 8 1 + cos Identify the directrix and vertices. 31) Objective: (9.6) Graph the Polar Equations of Conics Use a graphing utility to graph the equation. 3 32) r = 32) 1 - cos - Objective: (9.6) Tech: Conic Sections in Polar Coordinates Write the first four terms of the sequence whose general term is given. 33) an = n - 2 33) Objective: (10.1) Find Particular Terms of a Sequence from the General Term

3) an = (-) n 3) Objective: (10.1) Find Particular Terms of a Sequence from the General Term 35) an = n + 3 2n - 1 35) Objective: (10.1) Find Particular Terms of a Sequence from the General Term 36) A deposit of $8000 is made in an account that earns 9% interest compounded quarterly. The balance in the account after n quarters is given by the sequence an = 8000 1 + 0.09 n n = 1, 2, 3,... Find the balance in the account after 6 years. Objective: (10.1) Find Particular Terms of a Sequence from the General Term 36) Write the first four terms of the sequence defined by the recursion formula. 37) a1 = -3 and an = an-1-3 for n 2 37) Objective: (10.1) Use Recursion Formulas Write the first four terms of the sequence whose general term is given. n 38) an = (n - 1)! 38) Objective: (10.1) Use Factorial Notation Evaluate the factorial expression. 9! 39) 7! 2! 39) Objective: (10.1) Use Factorial Notation 0) n(n + 2 )! (n + 3 )! Objective: (10.1) Use Factorial Notation 0) Find the indicated sum. 10 1 1) i - i = 7 1) 2) 5 i = 1 (i + 1)! (i + 2)! 2) Express the sum using summation notation. Use 1 as the lower limit of summation and i for the index of summation. 3) 2 + 8 + 18 +... + 72 3)

) a + 1 + a + 2 +... + a + 5 2 5 ) 5) a + ar + ar 2 +... + ar 11 5) Express the sum using summation notation. Use a lower limit of summation not necessarily 1 and k for the index of summation. 6) (a + 1) + (a + c) + (a + c 2 ) +... + (a + c n ) 6) Write the first five terms of the arithmetic sequence. 7) a1 = -15; d = 3 7) Objective: (10.2) Write Terms of an Arithmetic Sequence Use the formula for the general term (the nth term) of an arithmetic sequence to find the indicated term of the sequence with the given first term, a1, and common difference, d. 8) Find a 31 when a1 = -6, d = - 2 5. 8) Objective: (10.2) Use the Formula for the General Term of an Arithmetic Sequence Write a formula for the general term (the nth term) of the arithmetic sequence. Then use the formula for an to find a20, the 20th term of the sequence. 9) a1 = -3, d = 0.5 9) Objective: (10.2) Use the Formula for the General Term of an Arithmetic Sequence 50) To train for a race, Will begins by jogging 13 minutes one day per week. He increases his jogging time by minutes each week. Write the general term of this arithmetic sequence, and find how many whole weeks it takes for him to reach a jogging time of one hour. Objective: (10.2) Use the Formula for the General Term of an Arithmetic Sequence 50) Find the indicated sum. 51) Find the sum of the first 30 terms of the arithmetic sequence: 10, 5, 0, -5,... 51) Objective: (10.2) Use the Formula for the Sum of the First n Terms of an Arithmetic Sequence 52) Find the sum of the odd integers between 30 and 68. 52) Objective: (10.2) Use the Formula for the Sum of the First n Terms of an Arithmetic Sequence Use the formula for the sum of the first n terms of an arithmetic sequence to find the indicated sum. 53) 29 i = 1 (2i - 1) 53) Objective: (10.2) Use the Formula for the Sum of the First n Terms of an Arithmetic Sequence

5) A theater has 3 rows with 27 seats in the first row, 30 in the second row, 33 in the third row, and so forth. How many seats are in the theater? Objective: (10.2) Use the Formula for the Sum of the First n Terms of an Arithmetic Sequence 5) Write the first five terms of the geometric sequence. 55) a1 = -6; r = - 55) Objective: (10.3) Write Terms of a Geometric Sequence Use the formula for the general term (the nth term) of a geometric sequence to find the indicated term of the sequence with the given first term, a1, and common ratio, r. 56) Find a6 when a1 = 9600, r = - 1 2. 56) Write a formula for the general term (the nth term) of the geometric sequence. 57) 3, - 3 2, 3, - 3 8, 3 16,... 57) The general term of a sequence is given. Determine whether the given sequence is arithmetic, geometric, or neither. If the sequence is arithmetic, find the common difference; if it is geometric, find the common ratio. 58) an = n - 2 58) 59) an = 3 2 n 59) 60) an = 5n 2-60) 61) A hockey player signs a contract with a starting salary of $810,000 per year and an annual increase of 6.5% beginning in the second year. What will the athlete's salary be, to the nearest dollar, in the eighth year? 61) Use the formula for the sum of the first n terms of a geometric sequence to solve. 62) Find the sum of the first 8 terms of the geometric sequence: -8, -16, -32, -6, -128,.... 62) Objective: (10.3) Use the Formula for the Sum of the First n Terms of a Geometric Sequence Find the indicated sum. Use the formula for the sum of the first n terms of a geometric sequence. 63) 5 3 2 i 63) i = 1 Objective: (10.3) Use the Formula for the Sum of the First n Terms of a Geometric Sequence

Round to the nearest dollar if needed. 6) To save for retirement, you decide to deposit $2250 into an IRA at the end of each year for the next 35 years. If the interest rate is 5% per year compounded annually, find the value of the IRA after 35 years. Objective: (10.3) Find the Value of an Annuity 6) Find the sum of the infinite geometric series, if it exists. 65) - 1 + 1-1 16 +... 65) Objective: (10.3) Use the Formula for the Sum of an Infinite Geometric Series Express the repeating decimal as a fraction in lowest terms. 66) 0.58 66) Objective: (10.3) Use the Formula for the Sum of an Infinite Geometric Series 67) A pendulum bob swings through an arc 80 inches long on its first swing. Each swing thereafter, it swings only 60% as far as on the previous swing. How far will it swing altogether before coming to a complete stop? Round to the nearest inch when necessary. Objective: (10.3) Use the Formula for the Sum of an Infinite Geometric Series 67) Use mathematical induction to prove that the statement is true for every positive integer n. n(5n + 3) 68) + 9 + 1 +... + (5n - 1) = 2 68) Objective: (10.) Prove Statements Using Mathematical Induction Evaluate the given binomial coefficient. 11 69) 69) Objective: (10.5) Evaluate a Binomial Coefficient Use the Binomial Theorem to expand the binomial and express the result in simplified form. 70) (5x + 2)3 70) Objective: (10.5) Expand a Binomial Raised to a Power 71) (x - 2) 71) Objective: (10.5) Expand a Binomial Raised to a Power Find the term indicated in the expansion. 72) (x - 3y)11; 8th term 72) Objective: (10.5) Find a Particular Term in a Binomial Expansion