The optic equation, permitting but not requiring integer solutions, appears in several contexts in geometry. In a bicentric quadrilateral, the inradiusr, the circumradius R, and the distancex between the incenter and the circumcenter are related by Fuss' theorem according to and the distances of the incenter I from the vertices A, B, C, D are related to the inradius according to In the crossed ladders problem, two ladders braced at the bottoms of vertical walls cross at the height h and lean against the opposite walls at heights of A and B. We have Moreover, the formula continues to hold if the walls are slanted and all three measurements are made parallel to the walls. Let P be a point on the circumcircle of an equilateral triangleABC, on the minor arcAB. Let a be the distance from P to A and b be the distance from P to B. On a line passing through P and the far vertex C, let c be the distance from P to the triangle side AB. Then In a trapezoid, draw a segment parallel to the two parallel sides, passing through the intersection of the diagonals and having endpoints on the non-parallel sides. Then if we denote the lengths of the parallel sides as a and b and half the length of the segment through the diagonal intersection as c, the sum of the reciprocals of a and b equals the reciprocal of c. The special case in which the integers whose reciprocals are taken must be square numbers appears in two ways in the context of right triangles. First, the sum of the reciprocals of the squares of the altitudes from the legs equals the reciprocal of the square of the altitude from the hypotenuse. This holds whether or not the numbers are integers; there is a formula that generates all integer cases. Second, also in a right triangle the sum of the squared reciprocal of the side of one of the two inscribed squares and the squared reciprocal of the hypotenuse equals the squared reciprocal of the side of the other inscribed square. The sides of a heptagonal triangle, which shares its vertices with a regular heptagon, satisfy the optic equation.
For a lens of negligible thickness and focal lengthf, the distances from the lens to an object, S1, and from the lens to its image, S2, are related by the thin lens formula:
Electrical engineering
Components of an electrical circuit or electronic circuit can be connected in what is called a series or parallel configuration. For example, the total resistance value Rt of two resistors with resistances R1 and R2 connected in parallel follows the optic equation: Similarly, the total inductanceLt of two inductors with inductances L1 and L2 connected in parallel is given by: and the total capacitanceCt of two capacitors with capacitances C1 and C2 connected in series is as follows:
Paper folding
The optic equation of the crossed ladders problem can be applied to folding rectangular paper into three equal parts. One side is partially folded in half and pinched to leave a mark. The intersection of a line from this mark to an opposite corner, with a diagonal is exactly one third from the bottom edge. The top edge can then be folded down to meet the intersection.
Harmonic mean
The harmonic mean of a and b is or 2c. In other words, c is half the harmonic mean of a and b.
states that the sum of two integers each raised to the same integer power n cannot equal another integer raised to the powern if n > 2. This implies that no solutions to the optic equation have all three integers equal to perfect powers with the same power n > 2. For if then multiplying through by would give which is impossible by Fermat's Last Theorem.
