This is the last question on my assignment and I can't figure out how to solve it. Replace the Cartesian equation with an equivalent polar equation:
$$
\frac{x^2}{4} + \frac{y^2}{49}=1
$$
I know that $x^2+y^2=r^2$ but when I try to work this out…
$$
\frac{4y^2+49x^2}{196}=1
$$
$$
\frac{4(r\sin\theta)^2+49(r\cos\theta)^2}{196}=1
$$
$$
\frac{4r^2\sin^2\theta+49r^2\cos^2\theta}{196}=1
$$
$$
r^2(4\sin^2\theta+49\cos^2\theta)=196
$$
$$
r^2=\frac{196}{49\cos^2\theta+4\sin^2\theta}
$$
$$
r=\sqrt{\frac{196}{49\cos^2\theta+4\sin^2\theta}}
$$
But I know this is very wrong.
Best Answer
You are totally correct : You have done what is done to find polar form of any equation, i.e.
For an ellipse :
The polar coordinates of point $\text{P}$ are given by :
You can confirm yourself here on Wikipedia.