methods / circ-functions.texon commit [spec] tidy up calculus notes (7a0a693)
   1\PassOptionsToPackage{unicode=true}{hyperref} % options for packages loaded elsewhere
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   3%
   4\documentclass[]{article}
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  36\usepackage{multicol}
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  45% Scale images if necessary, so that they will not overflow the page
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  47% using explicit options in \includegraphics[width, height, ...]{}
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  53% Redefines (sub)paragraphs to behave more like sections
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  63% set default figure placement to htbp
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  66\makeatother
  67
  68
  69\date{}
  70
  71\begin{document}
  72
  73\columnsbegin
  74\hypertarget{circular-functions}{%
  75\section{Circular functions}\label{circular-functions}}
  76
  77\hypertarget{radians-and-degrees}{%
  78\subsection{Radians and degrees}\label{radians-and-degrees}}
  79
  80\[1 \thinspace \operatorname{rad}={{180 \operatorname{deg}}\over \pi}\]
  81
  82\hypertarget{exact-values}{%
  83\subsection{Exact values}\label{exact-values}}
  84
  85\includegraphics[scale=0.5]{./graphics/exact-values-1.png}
  86
  87\hypertarget{sin-and-cos-graphs}{%
  88\subsection{\texorpdfstring{\(\sin\) and \(\cos\)
  89graphs}{\textbackslash{}sin and \textbackslash{}cos graphs}}\label{sin-and-cos-graphs}}
  90
  91\[f(x)=a \sin(bx-c)+d\] \[f(x)=a \cos(bx-c)+d\]
  92
  93where
  94
  95\begin{itemize}
  96\tightlist
  97\item
  98  \(a\) is the \(y\)-dilation (amplitude)
  99\item
 100  \(b\) is the \(x\)-dilation (period)
 101\item
 102  \(c\) is the \(x\)-shift (phase)
 103\item
 104  \(d\) is the \(y\)-shift (equilibrium position)
 105\end{itemize}
 106
 107Domain is \(\mathbb{R}\)
 108
 109Range is \([-b+c, b+c]\);
 110
 111Graph of \(\cos(x)\) starts at \((0,1)\). Graph of \(\sin(x)\) starts at
 112\((0,0)\).
 113
 114\textbf{Mean / equilibrium:} line that the graph oscillates around
 115(\(y=d\))
 116
 117\hypertarget{amplitude}{%
 118\subsubsection{Amplitude}\label{amplitude}}
 119
 120Amplitude of \(a\) means graph oscillates between \(+a\) and \(-a\) in
 121\(y\)-axis
 122
 123\(a=0\) produces straight line
 124
 125\(a < 0\) inverts the phase (\(\sin\) becomes \(\cos\), vice vera)
 126
 127\hypertarget{period}{%
 128\subsubsection{Period}\label{period}}
 129
 130Period \(T\) is \({2 \pi}\over b\)
 131
 132\(b=0\) produces straight line
 133
 134\(b<0\) inverts the phase
 135
 136\hypertarget{phase}{%
 137\subsubsection{Phase}\label{phase}}
 138
 139\(c\) moves the graph left-right in the \(x\) axis.
 140
 141If \(c=T={{2\pi}\over b}\), the graph has no actual phase shift.
 142
 143\hypertarget{symmetry}{%
 144\subsection{Symmetry}\label{symmetry}}
 145
 146\[\sin(\theta+{\pi\over 2})=\sin\theta\]
 147\[\sin(\theta+\pi)=-\sin\theta\]
 148
 149\[\cos(\theta+{\pi \over 2})=-\cos\theta\]
 150\[\cos(\theta+\pi)=-cos(\theta+{3\pi \over 2})=\cos(-\theta)\]
 151
 152\hypertarget{pythagorean-identity}{%
 153\subsection{Pythagorean identity}\label{pythagorean-identity}}
 154
 155\[\cos^2\theta+\sin^2\theta=1\]
 156
 157\hypertarget{complementary-relationships}{%
 158\subsection{Complementary
 159relationships}\label{complementary-relationships}}
 160
 161\[\sin({\pi \over 2} - \theta)=\cos\theta\]
 162\[\cos({\pi \over 2} - \theta)=\sin\theta\]
 163
 164\[\sin\theta=-\cos(\theta+{\pi \over 2})\]
 165\[\cos\theta=\sin(\theta+{\pi \over 2})\]
 166
 167\hypertarget{tan-graph}{%
 168\subsection{\texorpdfstring{\(\tan\)
 169graph}{\textbackslash{}tan graph}}\label{tan-graph}}
 170
 171\[y=a\tan(nx)\]
 172
 173where
 174
 175\begin{itemize}
 176\tightlist
 177\item
 178  \(a\) is \(x\)-dilation (period)
 179\item
 180  \(n\) is \(y\)-dilation (\(\equiv\) amplitude)
 181\item
 182  period \(T\) is \(\pi \over n\)
 183\item
 184  range is \(R\)
 185\item
 186  roots at \(x={k\pi \over n}\)
 187\item
 188  asymptotes at \(x={{(2k+1)\pi}\over 2n},\quad k \in \mathbb{Z}\)
 189\end{itemize}
 190
 191\textbf{Asymptotes should always have equations and arrow pointing up}
 192
 193\hypertarget{solving-trig-equations}{%
 194\subsection{Solving trig equations}\label{solving-trig-equations}}
 195
 196\begin{enumerate}
 197\def\labelenumi{\arabic{enumi}.}
 198\tightlist
 199\item
 200  Solve domain for \(n\theta\)
 201\item
 202  Find solutions for \(n\theta\)
 203\item
 204  Divide solutions by \(n\)
 205\end{enumerate}
 206
 207\(\sin2\theta={\sqrt{3}\over2}, \quad \theta \in[0, 2\pi] \quad(\therefore 2\theta \in [0,4\pi])\)
 208
 209\(2\theta=\sin^{-1}{\sqrt{3} \over 2}\)
 210
 211\(2\theta={\pi\over 3}, {2\pi \over 3}, {7\pi \over 3}, {8\pi \over 3}\)
 212
 213\(\therefore \theta = {\pi \over 6}, {\pi \over 3}, {7 \pi \over 6}, {4\pi \over 3}\)
 214\columnsend
 215\end{document}