Latest revision as of 20:55, 6 April 2022

Analytic Expressions for Selected Trigonometric Functions

In what follows we generally will provide expressions that result from evaluating $\sin θ$ , with the understanding that $\cos θ$ and $\tan θ$ then also can be evaluated straightforwardly via the familiar relations,

\cos θ

=

\pm (1 - \sin^{2} θ)^{1 / 2},

and,

\tan θ

=

\frac{\sin θ}{\pm (1 - \sin^{2} θ)^{1 / 2}} .

Widely Used Evaluations

$0 \leq$ Angle $(θ) \leq \frac{π}{2}$		$\sin θ$
Radians	Degrees	$\sin θ$
$0$	$0^{\circ}$	$0$
$\frac{π}{6}$	$3 0^{\circ}$	$\frac{1}{2}$
$\frac{π}{4}$	$4 5^{\circ}$	$\frac{\sqrt{2}}{2}$
$\frac{π}{3}$	$6 0^{\circ}$	$\frac{\sqrt{3}}{2}$
$\frac{π}{2}$	$9 0^{\circ}$	$1$

Integer-Degree Angles

A PDF-formatted document generated by James T. Parent^† lists exact values for the sine of all integer-degree angles between zero and ninety degrees, inclusive. An explanation of how the expressions in this document were derived, can be found on the SquareCirclez IntMath blog.

Examples Extracted from the James T. Parent Document^†
$0 \leq$ Angle $(θ) \leq \frac{π}{2}$		$\sin θ$
Radians	Degrees	$\sin θ$
$\frac{π}{60}$	$3^{\circ}$	$\frac{\sqrt{6}}{48} (\sqrt{5} - 1) (3 + \sqrt{3}) - \frac{\sqrt{3}}{24} (3 - \sqrt{3}) (5 + \sqrt{5})^{1 / 2}$
$\frac{π}{12}$	$1 5^{\circ}$	$\frac{\sqrt{2}}{4} (\sqrt{3} - 1) = \frac{1}{2} (2 - \sqrt{3})^{1 / 2}$
$\frac{π}{5}$	$3 6^{\circ}$	$\frac{\sqrt{2}}{8} (\sqrt{5} - 1) (5 + \sqrt{5})^{1 / 2} = \frac{1}{4} (10 - 2 \sqrt{5})^{1 / 2}$
$\frac{5 π}{12}$	$7 5^{\circ}$	$\frac{\sqrt{3} + 1}{2 \sqrt{2}}$
^†James T. Parent has previously taught mathematics at Schenectady County Community College, Schenectady, New York, and at Great Bay Community College, Portsmouth, New Hampshire.

@@ Line 61: / Line 61: @@
 ==Integer-Degree Angles==
-A PDF-formatted document generated by James T. Parent lists [https://www.intmath.com/blog/wp-content/images/2011/06/exact-values-sin-degrees.pdf exact values for the sine of all integer-degree angles] between zero and ninety degrees, inclusive.  An explanation of how the expressions in this document were derived, can be found on the [https://www.intmath.com/blog/mathematics/how-do-you-find-exact-values-for-the-sine-of-all-angles-6212 ''SquareCirclez'' IntMath blog].
+A PDF-formatted document generated by James T. Parent<sup>&dagger;</sup> lists [https://www.intmath.com/blog/wp-content/images/2011/06/exact-values-sin-degrees.pdf exact values for the sine of all integer-degree angles] between zero and ninety degrees, inclusive.  An explanation of how the expressions in this document were derived, can be found on the [https://www.intmath.com/blog/mathematics/how-do-you-find-exact-values-for-the-sine-of-all-angles-6212 ''SquareCirclez'' IntMath blog].
-<table border="1" align="center" cellpadding="8">
+<table border="1" align="center" cellpadding="8" width="75%">
 <tr>
-   <td align="center" colspan="3">Examples Extracted from the [https://www.intmath.com/blog/wp-content/images/2011/06/exact-values-sin-degrees.pdf James T. Parent Document]</td>
+   <td align="center" colspan="3">Examples Extracted from the [https://www.intmath.com/blog/wp-content/images/2011/06/exact-values-sin-degrees.pdf James T. Parent Document]<sup>&dagger;</sup></td>
 </tr>
@@ Line 94: / Line 94: @@
    <td align="center">
 <math>
+\frac{\sqrt{2}}{4}\biggl( \sqrt{3} - 1\biggr)
+=
 \frac{1}{2}\biggl(2 - \sqrt{3}\biggr)^{1 / 2}
 </math>
@@ Line 104: / Line 106: @@
    <td align="center">
 <math>
+\frac{\sqrt{2}}{8} \biggl( \sqrt{5} - 1\biggr) \biggl( 5 + \sqrt{5} \biggr)^{ 1 /2}
+=
 \frac{1}{4}\biggl(10 - 2\sqrt{5}\biggr)^{1 / 2}
 </math>
@@ Line 113: / Line 117: @@
    <td align="center"><math>75^\circ</math></td>
    <td align="center"><math>\frac{\sqrt{3} + 1}{2\sqrt{2}}</math></td>
+</tr>
+<tr>
+<td align="left" colspan="3">
+<sup>&dagger;</sup>James T. Parent has previously taught mathematics at Schenectady County Community College, Schenectady, New York, and at Great Bay Community College, Portsmouth, New Hampshire.
+</td>
 </tr>
 </table>

Appendix/Ramblings/TrigFunctions: Difference between revisions

Latest revision as of 20:55, 6 April 2022

Contents

Analytic Expressions for Selected Trigonometric Functions

Widely Used Evaluations

Integer-Degree Angles

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Appendix/Ramblings/TrigFunctions: Difference between revisions

Latest revision as of 20:55, 6 April 2022

Analytic Expressions for Selected Trigonometric Functions

Widely Used Evaluations

Integer-Degree Angles

Navigation menu

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