How to write an equation for a trig function graph?
The graphs of the four trigonometric functions — sine, cosine, tangent, and arc sine — are all circular. The graphs of the other three, hyperbolic sine, hyperbolic cosine, and their reciprocal, the hyperbolic tangent and its reciprocal, the arc tangent, are all hyperbolic. The graphs of the two circular functions are plotted in radians, and the graphs of the other four are plotted in degrees.
How to write an equation for a trig function graph of a circle?
Not all graphs are as simple as the line graphs that we’ve looked at so far. Sometimes the graphs are of circles, and this involves writing an equation for a circle. To do this, you will need to know two important pieces of information: the center of the circle, and the radius of the circle. The center is the place where the circle is located, and the radius is the distance from one point on the circle to the center. For example, if you are graphing
How to write a equation for a sin graph?
The sinus function is the most common trigonometric function. A graph of the sinus function resembles a wave. A positive value of a sinus wave shows where the peak of the wave is located. A negative value of a sinus wave shows where the trough is. Any value that is greater than zero is a positive value. Any value that is less than zero is a negative value.
How to write an equation for a triangle trigonometric function
The graphs of the three types of trigonometric functions (sine, cosine, and tangent) all have a triangle shape. The hypotenuse of that triangle is shown on the graph as the function’s domain, and the other two sides of the triangle are the values that make up the function’s range. To create a graph of a triangle trigonometric function, you need to know the values for the three sides of the triangle, which are called the angles
How to write an equation for a trigonometric function graph?
The graphs of trigonometric functions are circular. That means that you can represent the graphs using the imaginary numbers i and complex numbers. That makes it possible to write the graphs of trigonometric functions in terms of complex numbers. Try it out!