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The area enclosed by the lemniscate is a 2 = 2c 2. The lemniscate is the circle inversion of a hyperbola and vice versa. The two tangents at the midpoint O are perpendicular, and each of them forms an angle of π / 4 with the line connecting F 1 and F 2. The planar cross-section of a standard torus tangent to its inner equator is a ...
If k is an irrational number, then the curve never closes, and fills the space between the larger circle and a circle of radius R − 2r. Each hypocycloid (for any value of r) is a brachistochrone for the gravitational potential inside a homogeneous sphere of radius R. [6] The area enclosed by a hypocycloid is given by: [3] [7]
The curve was studied by von Tschirnhaus, de L'Hôpital, and Catalan. It was given the name Tschirnhausen cubic in a 1900 paper by Raymond Clare Archibald , though it is sometimes known as de L'Hôpital's cubic or the trisectrix of Catalan.
Area enclosed by a circle = ... The circle is the plane curve enclosing the maximum area for a given arc length. ... In polar coordinates, ...
The p-th polar of a C for a natural number p is defined as Δ Q p f(x, y, z) = 0. This is a curve of degree n−p. When p is n−1 the p-th polar is a line called the polar line of C with respect to Q. Similarly, when p is n−2 the curve is called the polar conic of C.
In mathematics, a rose or rhodonea curve is a sinusoid specified by either the cosine or sine functions with no phase angle that is plotted in polar coordinates. Rose curves or "rhodonea" were named by the Italian mathematician who studied them, Guido Grandi , between the years 1723 and 1728.
An area bounded by a function = expressed in polar coordinates is: [1] =. The area enclosed by a ... The area enclosed by a parametric curve ...
In geometry, a strophoid is a curve generated from a given curve C and points A (the fixed point) and O (the pole) as follows: Let L be a variable line passing through O and intersecting C at K. Now let P 1 and P 2 be the two points on L whose distance from K is the same as the distance from A to K (i.e. KP 1 = KP 2 = AK).