Wikipedia 10K Redux by Reagle from Starling archive. Bugs abound!!!
A TrigonometricFunction is a function of an angle defined by a ratio of two sides of a right triangle that contains that angle. Although this definition implies that the TrigonometricFunctions are defined only for angles of less than 90 degrees, they are defined on all angles whose measure is a real number. There are six basic TrigonometricFunctions. * Sine * Cosine * Tangent * Secant * Cosecant * Cotangent There are then six definitions, one for each function. To illustrate these definitions, see the right triangle below (Figure1). Angle B /l / l / l a c / l / l Angle A /______________l Angle C b Figure 1 Using the angle A to define these functions, special names are used for the sides of this triangle in the definitions. * The ''hypotenuse'' is the side opposite the right angle, in this case c. * The ''opposite side'' is the opposite the angle on which the function is defined, in this case a. * The ''adjacent side'' is the side that is a leg of the angle, but not the hypotenuse, in this case b. Then, 1). The ''sine'' of an angle is the ratio of the length of the opposite side to the length of the hypotenuse, abbreviated "sin." In general the sin (theta) = length of the opposite side/length of the hypotenuse. In our example the sin (A) = a/c. 2). The ''cosine'' of an angle is the ratio of the length of the adjacent side to the length of the hypotenuse, abbreviated "cos." In general, the cos (theta) = length of the adjacent side/length of the hypotenuse. In our example, the cos (A) = b/c. 3). The ''tangent'' of an angle is the ratio of the length of the opposite side to the length of the adjacent side, abbreviated "tan." In general, the tan (theta) = length of the opposite side/ length of the adjacent side. In our example, the tan (A) = a/b. The remaining three functions are best defined using the above three functions. 4). The ''cosecant'' (A) is the inverse of the ratio of the sin (A), the ratio of the length of the hypotenuse to thelength of the adjacent side, abbreviated "csc." Then csc (A) = c/a. 5). The ''secant'' (A) is the inverse of the ratio of cos (A), the ratio of the length of the hypotenuse to the length of the opposite side, abbreviated "sec." Then the sec (A) = c/b. 6). The ''cotangent'' of (A) is the inverse of the ratio of the tan (A), the ratio of the length of the adjacent side to the length of the opposite side, abbreviated "cot." Then the cot (A) = b/a. The familiar mnemonic to remember these definitions is CAHSOHTOA. It reminds one that "CAH," the cos= adjacent/hypotenuse, "SOA," the sin = opposite/hypotenuse, and "TOA," the tan = opposite/adjacent. A simple example will show how easy it is to calculate these functions for a common angle. Suppose we have a right triangle where the two other angles are equal, and therefore = 45 degrees. Then the length of side b and the length of side c are equal. Now, one can determine the sin, cos and tan of an angle of 45 degrees. Let a = 1, then b = 1. Using the PythagoreanTheorem, c = sqrt (a^2 + b^2). Then c = sqrt (2). This is illustrated in Figure 2. Angle B /l / l / l a = 1 c = sqrt(2) / l / l Angle A /______________l Angle C b = 1 Figure 2 Then sin (45degrees) = 1/sqrt (2) = sqrt (2)/2, the cos (45degrees) = 1/sqrt (2) = sqrt (2)/2 and, the tan (45degrees) = sqrt (2)/sqrt (2) = 1. Using the definitions, the csc (45degrees) = sqrt (2). The sec (45degrees) = sqrt (2), and the cot (45degrees) = 1. '''Q.''' Can you determine the value of the six TrigonometricFunctions for an angle of 60 degrees and 30 degrees using only the definitions, the PythagoranThoerem, and theorems from EuclideanGeometry?---- The next step is to determine the value of these six functions for angles greater than or equal to 90 degrees. Other closely related topics are the graphs of these functions, the TrigonomtricIdentities, and, in CalculuS, the continuity and differentiability of these functions.