https://wiki.math.ucr.edu/index.php?action=history&feed=atom&title=Inverse_Trig_Functions_1Inverse Trig Functions 1 - Revision history2026-04-22T22:16:06ZRevision history for this page on the wikiMediaWiki 1.35.0https://wiki.math.ucr.edu/index.php?title=Inverse_Trig_Functions_1&diff=1149&oldid=prevMathAdmin: Created page with "<div class="noautonum">__TOC__</div> == Review of Trig Functions== Before discussing inverse trig functions we will recall how Sine, Cosine, and Tangent are defined. All thre..."2015-11-08T00:29:22Z<p>Created page with "<div class="noautonum">__TOC__</div> == Review of Trig Functions== Before discussing inverse trig functions we will recall how Sine, Cosine, and Tangent are defined. All thre..."</p>
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== Review of Trig Functions==<br />
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Before discussing inverse trig functions we will recall how Sine, Cosine, and Tangent are defined. All three of them take, as input, an angle. Measuring this angle from the positive<br />
x-axis, we can define a ray, one directional line emanating from the origin and creating the angle that was given as input. This ray will intersect the unit circle at one point. From there Sine, Cosine,<br />
and Tangent, output some information related to this point on the unit circle and the ray. Sine outputs the x-coordinate of the point, Cosine outputs the y coordinate, and Tangent outputs the ratio of the two, dividing the x-coordinate by<br />
the y-coordinate.<br />
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==Inverse Sine==<br />
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As we trace around the unit circle, we can observe that the y-coordinate will go from 0, to 1, back to 0, to -1, and finally completing the rotation with a y-coordinate of 0. Notice that<br />
every number occurs twice during each complete rotation, a picture helps. In order to define an inverse we have to restrict the domain, this will allow the restricted graph to pass the horizontal line test.<br />
Namely, we restrict the angles to <math>[-\frac{\pi}{2}, \frac{\pi}{2}]</math>. Now inverse Sine will take as input a y-coordinate, associated to one of the angles in the restricted domain, and output the angle.<br />
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==Inverse Cosine==<br />
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Inverse Cosine behaves vary similarly to inverse sine, except Cosine deals with x-coordinates, and has we restrict ourselves to the top half of the unit circle, so the only angles we care about are <math>[0, \pi]</math><br />
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==Inverse Trig==<br />
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Inverse Trig takes, as input, the y-coordinate divided by the x-coordinate. So it is undefined when the angle is <math> \frac{\pi}{2} \text{ or }\frac{3\pi}{2}</math><br />
We restrict the domain of the Tangent function to <math> (-\frac{\pi}{2}, \frac{\pi}{2})</math><br />
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