13.4 – The Sine Function
I. Interpreting Sine Functions The sine function, y = sin θ, matches the measure θ of an angle in standard position with the y – coordinate on the unit circle. The periodic sine function has one cycle every 360° or 2π Hence the sine of any degree greater than 2π, then the cycle is repeated.
The x-axis or domain will be thought of in terms of theta, θ When graphing you have to pay attention to the domain of theta. Trig Cycles are repeated once every 360 degrees or 2π
The General Sine Curve:
Example 1: Graph, using a table the values of the sine curve in the domain 0 ≤ θ ≤ 2π. Use only the coordinates on the θ and y axes.
You can vary the period and amplitude of the sine curve to get different curves, either “extended” or more “frequent” Done my multiplying the function by a constant, and theta by a constant
Y = 3 sin θ
Y = sin 2θ
II. Properties of the Sine Function y = a sin bθ ІaІ = the amplitude (the highest and lowest points on the curves.) b = the number of cycles the curve makes from 0 to 2π 2π / b = the period of the cycle
Steps to Graphing y = a sin bθ Step 1: draw your reference curve Step 2: identify the domain and set up your graph. Step 3: identify the amplitude and document Step 4: identify the number of cycles in the domain that you have to graph Step 4: identify the period you need to create one cycle Step 5: Alter graph in needed in increments of 4 units on the theta axis to meet the criteria of the total cycles.
Example 2: how many cycles does the following have in the domain from 0 to 2π? Give the amplitude and period as well. A) y = -5 sin 2θ B) f(x) = .5 sin .5θ
Example 3: Graph the following. (check on the calculator) A) y = -2 sin 2θ, for 0 < θ < 2π B) y = 5 sin θ, for 0 < θ < 2π C) y = ½ sin .5θ, for 0 < θ < 2π