Answer to Question #271919 in Differential Geometry | Topology for Angel Nodado

r = 4cos2"\\theta"

r₁= "\\frac{dr}{d\\theta}=-8sin2\\theta"

r₂= "\\frac{d\u00b2r}{d\\theta^{2}}=-16cos2\\theta"

Curvature at (r,"\\theta)" = "\\frac{r\u00b2+2r_{1}^{2}-rr_{2}}{(r\u00b2+r_{1}\u00b2)^{3\/2}}"

r("\\theta=\\frac{\u03c0}{12})=4cos(\\frac{\u03c0}{6})=2\\sqrt{3}"

r₁("\\theta=\\frac{\u03c0}{12})=" "-8sin(\\frac{\u03c0}{6})=-4"

r₂("\\theta=\\frac{\u03c0}{12})=" "-16cos(\\frac{\u03c0}{6})=-8\\sqrt{3}"

rr₂ at "(\\theta = \\frac{\u03c0}{12})=" "-2\\sqrt{3}.8\\sqrt{3}=-48"

Therefore curvature at "(\\theta = \\frac{\u03c0}{12})="

"\\frac{(2\\sqrt{3})\u00b2+2(-4)\u00b2+48}{((2\\sqrt{3})\u00b2+(-4)\u00b2)^{3\/2}}" = "\\frac{92}{(28)^{3\/2}}" = "\\frac{23}{2(7)^{3\/2}}"

and radius of curvature = "\\frac{2(7)^{3\/2}}{23}"