![SOLVED: point) For each set of Polar coordinates (r, 0) , match the equivalent Cartesian coordinates (x,y). Don't use calculator: 3 2 (4, 3. (4, 3) 4. (4, 9) 5. (4, # 6. (4, A (4,0) B. (-2V2,212) c. (2V3 D: (4v/3,-4) E (-2,-2v3) F (2V2,21/2) SOLVED: point) For each set of Polar coordinates (r, 0) , match the equivalent Cartesian coordinates (x,y). Don't use calculator: 3 2 (4, 3. (4, 3) 4. (4, 9) 5. (4, # 6. (4, A (4,0) B. (-2V2,212) c. (2V3 D: (4v/3,-4) E (-2,-2v3) F (2V2,21/2)](https://cdn.numerade.com/ask_images/3eea6fca203345f780563d27edf68222.jpg)
SOLVED: point) For each set of Polar coordinates (r, 0) , match the equivalent Cartesian coordinates (x,y). Don't use calculator: 3 2 (4, 3. (4, 3) 4. (4, 9) 5. (4, # 6. (4, A (4,0) B. (-2V2,212) c. (2V3 D: (4v/3,-4) E (-2,-2v3) F (2V2,21/2)
![Equation of a circle in polar form, General equation of a circle in polar coordinates, Polar equation of a circle with a center on the polar axis running through the pole, Polar Equation of a circle in polar form, General equation of a circle in polar coordinates, Polar equation of a circle with a center on the polar axis running through the pole, Polar](http://www.nabla.hr/PolarCoordinatesConversions.gif)
Equation of a circle in polar form, General equation of a circle in polar coordinates, Polar equation of a circle with a center on the polar axis running through the pole, Polar
![Polar Coordinate System 11.3 – Polar Coordinates Used to plot and analyze equations of conics (circles, parabolas, ellipses, and hyperbolas. Another method. - ppt download Polar Coordinate System 11.3 – Polar Coordinates Used to plot and analyze equations of conics (circles, parabolas, ellipses, and hyperbolas. Another method. - ppt download](https://images.slideplayer.com/14/4330264/slides/slide_8.jpg)