Graphs of Trigonometric Functions
     The Graph of the Cosine Function  f (x) = cos x
      Properties of the cosine function
         Domain and range
         Zeros of the function
         Extremes, maximum and minimum of the cosine function
         Parity and periodicity of the function
      Behavior of the cosine function
Graphs of trigonometric functions
The graph of the cosine function  f (x) = cos x
To draw the graph of the cosine function divide the unit circle and x-axis of a Cartesian coordinate system the same way as when drawing the sine function.
The abscissas of the ending points of arcs x, of the unit circle, are now the ordinates of the corresponding points P (x, cos x) of the graph, as shown in the figure below.
Since  cos x = sin (x + p/2)  that is, the cosine of an arc x equals the sine of the same arc increased by       p/ 2.
  Therefore, the graph of the cosine function correspond to the graph of the sine function translated in the negative direction of the x-axis by p/ 2.
Thus for example,  cos p/6 = sin (p/6 + p/ 2) = sin 2p/3  as shows the above graph.
Properties of the cosine function
 - Domain,    x R.
 - Range,    -1 < y < 1.
 - Zeros of the function,    x = p/2 + kpk Z.
 - Abscissas of maximums,    x = k 2pk Z  and  minimums    x = (2 k + 1) pk Z.
 - Parity and periodicity, the cosine is even function since  f (-x) = cos(-x) = cos x = f (x).
   The identity  cos (x + k 2p) = cos xk Z  
   shows that the cosine is periodic function with the period  P = 2p.
Behavior of the cosine function
The table shows behavior of the cosine function while the arc x of the unit circle increases passing through all the values from the period.
Trigonometry contents A
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