Solutions to Odd-Numbered Exercises
1. If eccentricity is less than 1, it is an ellipse. If eccentricity is equal to 1, it is a parabola. If eccentricity is greater than 1, it is a hyperbola.
3. The directrix will be parallel to the polar axis.
5. One of the foci will be located at the origin.
7. Parabola with [latex]e=1[/latex] and directrix [latex]\frac{3}{4}[/latex] units below the pole.
9. Hyperbola with [latex]e=2[/latex] and directrix [latex]\frac{5}{2}[/latex] units above the pole.
11. Parabola with [latex]e=1[/latex] and directrix [latex]\frac{3}{10}[/latex] units to the right of the pole.
13. Ellipse with [latex]e=\frac{2}{7}[/latex] and directrix [latex]2[/latex] units to the right of the pole.
15. Hyperbola with [latex]e=\frac{5}{3}[/latex] and directrix [latex]\frac{11}{5}[/latex] units above the pole.
17. Hyperbola with [latex]e=\frac{8}{7}[/latex] and directrix [latex]\frac{7}{8}[/latex] units to the right of the pole.
19. [latex]25{x}^{2}+16{y}^{2}-12y - 4=0[/latex]
21. [latex]21{x}^{2}-4{y}^{2}-30x+9=0[/latex]
23. [latex]64{y}^{2}=48x+9[/latex]
25. [latex]96{y}^{2}-25{x}^{2}+110y+25=0[/latex]
27. [latex]3{x}^{2}+4{y}^{2}-2x - 1=0[/latex]
29. [latex]5{x}^{2}+9{y}^{2}-24x - 36=0[/latex]
31.
33.
35.
37.
39.
41.
43. [latex]r=\frac{4}{5+\cos \theta }[/latex]
45. [latex]r=\frac{4}{1+2\sin \theta }[/latex]
47. [latex]r=\frac{1}{1+\cos \theta }[/latex]
49. [latex]r=\frac{7}{8 - 28\cos \theta }[/latex]
51. [latex]r=\frac{12}{2+3\sin \theta }[/latex]
53. [latex]r=\frac{15}{4 - 3\cos \theta }[/latex]
55. [latex]r=\frac{3}{3 - 3\cos \theta }[/latex]
57. [latex]r=\pm \frac{2}{\sqrt{1+\sin \theta \cos \theta }}[/latex]
59. [latex]r=\pm \frac{2}{4\cos \theta +3\sin \theta }[/latex]
Candela Citations
- Precalculus. Authored by: OpenStax College. Provided by: OpenStax. Located at: http://cnx.org/contents/fd53eae1-fa23-47c7-bb1b-972349835c3c@5.175:1/Preface. License: CC BY: Attribution