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I understand how to calculate the largest possible rectangle that can be drawn inside an ellipse, but my problem is: I a have a rectangle of given proportions and an ellipse of a given size (not the same proportions) and I need to know how big that rectangle will be when centered inside the ellipse and sized with all four corners intersecting.

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1 Answer 1

If the rectangle is centered inside the ellipse, and for all 4 corners to lie on the ellipse, the 4 corners must be the solution to the equation system of:

[1] implicit equation of the ellipse: x^2/a^2 + y^2/b^2 = 1

[2] The proportion of the rectangle (aspect ratio) x / y = c.

Just substitute in and solve the equation for x and y. 2 * abs(x) will be the width and 2 * abs(y) will be the height of the rectangle.

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Thanks, that works great. In my equation however, if c = x / y and I have a "vertical" rectangle, it must have a proportion > 1 then x = rect height and y = rect width. And solving for y yields the width. Does that make sense? My Equation for solving y: y = sqrt (b^2 / ((b^2 / a^2) * c^2) + 1)) Horizontal Ellipse and Vertical Rectangle a = 60(h) | a^2 = 3600 b = 130(w) | b^2 = 16900 x = 115(h) y = 108(w) c = x /y c = 1.065 | c^2 = 1.134 y = sqrt (16900 / ((16900 / 3600) * 1.134) + 1)) y = 51.7 width = 2 * y = 103.4 height = 1.065 * y = 110 When drawn graphicaly, those dim are correct –  Brad Duncan Jun 15 '12 at 15:12
Let's just call them dimensions of the rectangle. Width and height may be ambiguous. If it is correct for you, then everything is OK. –  nhahtdh Jun 15 '12 at 15:14

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