Sine of Integer Multiple of Argument/Formulation 9/Examples/Sine of Sextuple Angle
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Example of Use of Sine of Integer Multiple of Argument/Formulation 9
- $\map \sin {6 \theta } = \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2\sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2\sin \theta }} }} }$
Proof
Follows directly from the Sine of Integer Multiple of Argument: Formulation 9:
Explicit derivation illustrated below:
\(\ds \map \sin {6 \theta}\) | \(=\) | \(\ds \paren {2 \sin \theta } \map \cos {5 \theta} + \map \sin {4 \theta}\) | Sine of Integer Multiple of Argument: Formulation 6 | |||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { \paren {2 \sin \theta } + \frac {\map \sin {4 \theta} } {\map \cos {5 \theta} } }\) | Factor out $\map \cos {5 \theta}$ | |||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {\cfrac {\map \cos {5 \theta} } {\map \sin {4 \theta} } } }\) | ||||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {\cfrac {\paren {-2 \sin \theta } \map \sin {4 \theta} + \map \cos {3 \theta} } {\map \sin {4 \theta} } } }\) | Cosine of Integer Multiple of Argument: Formulation 6 | |||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac {\map \cos {3 \theta} } {\map \sin {4 \theta} } } }\) | ||||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {\cfrac {\map \sin {4 \theta} } {\map \cos {3 \theta} } } } }\) | ||||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {\cfrac {\paren {2 \sin \theta } \map \cos {3 \theta} + \map \sin {2 \theta} } {\map \cos {3 \theta} } } } }\) | Sine of Integer Multiple of Argument: Formulation 6 | |||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2 \sin \theta + \cfrac {\map \sin {2 \theta} } {\map \cos {3 \theta} } } } }\) | ||||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2 \sin \theta + \cfrac 1 {\cfrac {\map \cos {3 \theta} } {\map \sin {2\theta} } } } } }\) | ||||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2 \sin \theta + \cfrac 1 {\cfrac {\paren {-2 \sin \theta } \map \sin {2\theta} + \cos \theta } {\map \sin {2\theta} } } } } }\) | Cosine of Integer Multiple of Argument: Formulation 6 | |||||||||||
\(\ds \) | \(=\) | \(\ds \map \cos {5 \theta} \paren { 2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2 \sin \theta + \cfrac 1 {-2 \sin \theta + \cfrac 1 {2 \sin \theta } } } } }\) |
$\blacksquare$