F Foundations: A Prelude To Functions 1 Functions And Their Graphs 2 Linear And Quadratic Functions 3 Polynomial And Rational Functions 4 Exponential And Logarithmic Functions 5 Trigonometric Functions 6 Analytic Trigonometry 7 Applications Of Trigonometric Functions 8 Polar Coordinates; Vectors 9 Analytic Geometry 10 Systems Of Equations And Inequalities 11 Sequences; Induction; The Binomial Theorem 12 Counting And Probability 13 A Preview Of Calculus: The Limit, Derivative, And Integral Of A Function A Review B Graphing Utilities expand_more
9.1 Conics 9.2 The Parabola 9.3 The Ellipse 9.4 The Hyperbola 9.5 Rotation Of Axes; General Form Of A Conic 9.6 Polar Equations Of Conics 9.7 Plane Curves And Parametric Equations Chapter Questions expand_more
Problem 1AYU Problem 2AYU: Transform the equation r=6cos from polar coordinates to rectangular coordinates. (pp. 583-584) Problem 3AYU: A is the set of points P in a plane for which the ratio of the distance from a fixed point F,... Problem 4AYU: The eccentricity e of a parabola is ____, of an ellipse it is _____, and if a hyperbola it is ____ Problem 5AYU: If (r,) are polar coordinates, the equation r=22+3sin, defines a(an). Problem 6AYU Problem 7AYU Problem 8AYU Problem 9AYU Problem 10AYU Problem 11AYU Problem 12AYU Problem 13AYU: In Problems 13-24, analyze each equation and graph it. r= 1 1+cos Problem 14AYU: In Problems 13-24, analyze each equation and graph it.
Problem 15AYU: In Problems 13-24, analyze each equation and graph it.
Problem 16AYU: In Problems 13-24, analyze each equation and graph it. r= 10 5+4cos Problem 17AYU: In Problems 13-24, analyze each equation and graph it.
Problem 18AYU: In Problems 13-24, analyze each equation and graph it.
Problem 19AYU: In Problems 13-24, analyze each equation and graph it.
Problem 20AYU: In Problems 13-24, analyze each equation and graph it. r= 8 2+4cos Problem 21AYU: In Problems 13-24, analyze each equation and graph it.
Problem 22AYU: In Problems 13-24, analyze each equation and graph it.
Problem 23AYU Problem 24AYU Problem 25AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r= 1 1+cos Problem 26AYU: In Problems 25-36, convert each polar equation to a rectangular equation.
Problem 27AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r= 8 4+3sin Problem 28AYU: In Problems 25-36, convert each polar equation to a rectangular equation.
Problem 29AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r= 9 36cos Problem 30AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r= 12 4+8sin Problem 31AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r= 8 2sin Problem 32AYU: In Problems 25-36, convert each polar equation to a rectangular equation.
Problem 33AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r( 32sin )=6 Problem 34AYU: In Problems 25-36, convert each polar equation to a rectangular equation. r( 2cos )=2 Problem 35AYU: In Problems 25-36, convert each polar equation to a rectangular equation.
Problem 36AYU: In Problems 25-36, convert each polar equation to a rectangular equation.
Problem 37AYU Problem 38AYU Problem 39AYU Problem 40AYU Problem 41AYU Problem 42AYU Problem 43AYU Problem 44AYU Problem 45AYU: Derive equation (d) in Table 5:
Problem 46AYU: Orbit of Mercury The planet Mercury travels around the Sun in an elliptical orbit given... Problem 47AYU Problem 48AYU: Problems 47-50 are based on material learned earlier in the course. The purpose of these problems is... Problem 49AYU: Problems 47-50 are based on material learned earlier in the course. The purpose of these problems is... Problem 50AYU: Problems 47-50 are based on material learned earlier in the course. The purpose of these problems is... format_list_bulleted