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Discuss the Equation and Graph It $r=\frac{6}{3-3 \cos \theta}$ A) Directrix Perpendicular to Polar
Axis 2 Left of Pole

Question 18

Multiple Choice

Discuss the equation and graph it.
- $r=\frac{6}{3-3 \cos \theta}$
$Discuss the equation and graph it. - r=\frac{6}{3-3 \cos \theta} A) directrix perpendicular to polar axis 2 left of pole focus ( 0,0 ) , vertex ( 1 , \pi ) B) directrix perpendicular to polar axis 2 right of pole focus ( 0,0 ) , vertex ( 1,0 ) C) directrix parallel to polar axis 2 below pole focus ( 0,0 ) , vertex \left( 1 , \frac { 3 \pi } { 2 } \right) D) directrix parallel to polar axis 2 above pole focus ( 0,0 ) , vertex \left( 1 , \frac { \pi } { 2 } \right)$

A) directrix perpendicular to polar
axis 2 left of pole
focus $( 0,0 )$ , vertex $( 1 , \pi )$
$Discuss the equation and graph it. - r=\frac{6}{3-3 \cos \theta} A) directrix perpendicular to polar axis 2 left of pole focus ( 0,0 ) , vertex ( 1 , \pi ) B) directrix perpendicular to polar axis 2 right of pole focus ( 0,0 ) , vertex ( 1,0 ) C) directrix parallel to polar axis 2 below pole focus ( 0,0 ) , vertex \left( 1 , \frac { 3 \pi } { 2 } \right) D) directrix parallel to polar axis 2 above pole focus ( 0,0 ) , vertex \left( 1 , \frac { \pi } { 2 } \right)$

B) directrix perpendicular to polar
axis 2 right of pole
focus $( 0,0 )$ , vertex $( 1,0 )$
$Discuss the equation and graph it. - r=\frac{6}{3-3 \cos \theta} A) directrix perpendicular to polar axis 2 left of pole focus ( 0,0 ) , vertex ( 1 , \pi ) B) directrix perpendicular to polar axis 2 right of pole focus ( 0,0 ) , vertex ( 1,0 ) C) directrix parallel to polar axis 2 below pole focus ( 0,0 ) , vertex \left( 1 , \frac { 3 \pi } { 2 } \right) D) directrix parallel to polar axis 2 above pole focus ( 0,0 ) , vertex \left( 1 , \frac { \pi } { 2 } \right)$
C) directrix parallel to polar
axis 2 below pole
focus $( 0,0 )$ , vertex $\left( 1 , \frac { 3 \pi } { 2 } \right)$

$Discuss the equation and graph it. - r=\frac{6}{3-3 \cos \theta} A) directrix perpendicular to polar axis 2 left of pole focus ( 0,0 ) , vertex ( 1 , \pi ) B) directrix perpendicular to polar axis 2 right of pole focus ( 0,0 ) , vertex ( 1,0 ) C) directrix parallel to polar axis 2 below pole focus ( 0,0 ) , vertex \left( 1 , \frac { 3 \pi } { 2 } \right) D) directrix parallel to polar axis 2 above pole focus ( 0,0 ) , vertex \left( 1 , \frac { \pi } { 2 } \right)$

D) directrix parallel to polar
axis 2 above pole
focus $( 0,0 )$ , vertex $\left( 1 , \frac { \pi } { 2 } \right)$
$Discuss the equation and graph it. - r=\frac{6}{3-3 \cos \theta} A) directrix perpendicular to polar axis 2 left of pole focus ( 0,0 ) , vertex ( 1 , \pi ) B) directrix perpendicular to polar axis 2 right of pole focus ( 0,0 ) , vertex ( 1,0 ) C) directrix parallel to polar axis 2 below pole focus ( 0,0 ) , vertex \left( 1 , \frac { 3 \pi } { 2 } \right) D) directrix parallel to polar axis 2 above pole focus ( 0,0 ) , vertex \left( 1 , \frac { \pi } { 2 } \right)$

Discuss the Equation and Graph It r=63−3cos⁡θr=\frac{6}{3-3 \cos \theta}r=3−3cosθ6​ A) Directrix Perpendicular to Polar Axis 2 Left of Pole

Multiple Choice

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Discuss the Equation and Graph It $r=\frac{6}{3-3 \cos \theta}$ A) Directrix Perpendicular to Polar
Axis 2 Left of Pole

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