Identify the type of trigonometric function that best fits the graph (e.g., sine, cosine, tangent).
Determine the amplitude of the graph by measuring the vertical distance from the midline to a peak or trough.
Find the period of the graph by measuring the horizontal distance required for the function to complete one full cycle.
Identify any phase shifts by determining how much the graph is horizontally shifted from the standard position.
Determine any vertical shifts by identifying how much the midline of the graph is shifted up or down from the x-axis.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Graphing Trigonometric Functions
Graphing trigonometric functions involves plotting the sine, cosine, and tangent functions on a coordinate plane. Each function has a unique shape characterized by its amplitude, period, and phase shift. Understanding these properties is essential for accurately determining the equation that represents a given graph.
Amplitude refers to the maximum height of a wave from its midline, while the period is the distance over which the function completes one full cycle. For sine and cosine functions, the standard amplitude is 1, and the period is 2π. Adjustments to these values in the function's equation affect the graph's appearance, making it crucial to identify them when determining the equation.
Phase shift describes the horizontal displacement of a trigonometric graph from its standard position. It occurs when the function is modified by adding or subtracting a constant inside the function's argument. Recognizing the phase shift is vital for accurately writing the equation that corresponds to the graph, as it affects where the graph starts along the x-axis.