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1 min readโขjune 18, 2024
Jesse
Jesse
AP Precalculusโ Unit 3 (Trigonometric and Polar Functions) covers a wide range of topics, from the basic trigonometric functions to more advanced topics such as polar coordinates and inverse trigonometric functions. ๐ Similar to the other two units seen so far, this unit focuses on using these concepts to (1) analyze and model real-world phenomena and (2) solve problems in mathematics and other areas.
One might wonder, โHow do these concepts apply to real life?โ โ
Interestingly, trigonometric and polar functions have many applications in various fields such as:
This means that once you grasp the general ideas provided by this unit, you can apply them to virtually (almost) any field you see yourself in five, ten years down the road! โญ
Periodic phenomena are patterns that repeat over time. They are often modeled using trigonometric functions, such as the sine and cosine functions. In this unit, you will learn how to identify and analyze periodic phenomena, and how to use trigonometric functions to model them. ๐
Likewise, sine and cosine function values are used to find the coordinates of a point on a circle. You will learn how to use the unit circle to find the values of these functions for special angles, and how to use these values to find the coordinates of a point on a circle.
Sine and cosine function graphs are used to represent periodic phenomena. Youโll soon learn how to sketch these graphs, and how to analyze them to find the period, amplitude, and vertical shift of a function.
Sinusoidal functions are a type of periodic function that can be represented using the sine or cosine function. You will learn how to use these functions to model real-world phenomena, such as sound waves and light waves.
Sinusoidal function transformations are used to change the appearance of a sinusoidal function. You will learn how to use transformations to shift, stretch, and compress a function, and how to use these transformations to model real-world phenomena.
Sinusoidal function context and data modeling are used to analyze real-world data. You will learn how to use sinusoidal functions to model data, and how to use the models to make predictions and analyze patterns in the data. ๐ค
To complete the three main trigonometric functions, the tangent function is a trigonometric function that is used to find the slope of a line. โ๏ธ You will learn how to use the tangent function to find the slope of a line, and how to use it to solve problems involving angles and distances.
Inverse trigonometric functions are used to find the angles that correspond to a given sine, cosine, or tangent value. You will learn how to use these functions to solve problems involving angles and distances. ๐
Trigonometric equations and inequalities are used to solve problems involving angles and distances. You will learn how to use trigonometric functions to solve equations and inequalities, and how to use these solutions to solve problems. ๐ค
Equivalent representations of trigonometric functions are used to express trigonometric functions in different forms. You will learn how to use identities and trigonometric equations to express a trigonometric function in different forms and how to use them to simplify trigonometric expressions. ๐ง
Trigonometry and polar coordinates are used to express positions in a plane. You will learn how to use polar coordinates to express positions in a plane and how to use trigonometry to find the distances and angles between points in a plane. โ๏ธ
Polar function graphs are used to represent functions in polar coordinates. You will learn how to sketch and analyze polar function graphs and how to use them to model real-world phenomena.
Rates of change in polar functions are used to describe how the value of a function changes with respect to the angle. You will learn how to use the concept of rates of change in polar functions to analyze and understand how a function behaves in a polar coordinate system.
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