9: Sinusoidal Models

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9.1: Periodic Behaviors in the Real World
This page discusses sinusoidal models used for representing repetitive phenomena like ocean waves and heartbeats. The sine function's periodicity makes it effective for modeling such behaviors. Key parameters like wavelength, phase, amplitude, and baseline allow for adjustments to accurately fit diverse real-world data.
9.2: Sinusoidal Graphs
This page explores the sine curve as a periodic function, using the London Eye as an example. It details the relationship between sine functions and circular motion, covering graph characteristics, transformations, and amplitude. Emphasis is placed on determining the period from coefficients and using real-world examples like bicycle and Ferris wheels to illustrate sinusoidal functions.
9.3: More Sinusoidal Modeling
This page covers the modeling of periodic behaviors using sinusoidal functions, highlighted through examples like temperature changes and moon phases. It details how to create sinusoidal equations from data, emphasizing amplitude and period while providing methods for graphing and determining properties such as vertical and horizontal shifts.
9.4: Sinusoidal Models (Exercises)
9.5: AC Waveform - An Electrical Application
Any time you pass a conductor through a magnetic field, you induce a voltage. If we take that conductor and turn it into a loop and spin it continually through that magnetic field, we have created an alternator. This means that a voltage will constantly be induced. However, this is not a flat line voltage like direct current. It creates an oscillating voltage that rises and falls.

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