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Exponential Functions

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Honors Pre-Calculus

Definition

An exponential function is a type of function where the independent variable appears as an exponent. These functions exhibit a characteristic curved growth or decay pattern and are widely used to model various real-world phenomena that exhibit exponential behavior, such as population growth, radioactive decay, and compound interest.

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5 Must Know Facts For Your Next Test

  1. Exponential functions are characterized by the equation $f(x) = a^x$, where $a$ is the base and $x$ is the independent variable.
  2. The base $a$ determines the rate of growth or decay, with $a > 1$ indicating exponential growth and $0 < a < 1$ indicating exponential decay.
  3. Exponential functions exhibit the property of constant relative change, meaning the rate of change is proportional to the current value of the function.
  4. Transformations of exponential functions, such as shifting, stretching, and reflecting, can be used to model a wide range of real-world phenomena.
  5. Exponential functions are widely used in fields like finance, biology, physics, and computer science to model processes like population growth, radioactive decay, and the spread of infectious diseases.

Review Questions

  • Explain how the base $a$ in an exponential function $f(x) = a^x$ affects the behavior of the function.
    • The base $a$ in an exponential function $f(x) = a^x$ determines the rate of growth or decay of the function. When $a > 1$, the function exhibits exponential growth, where the value of the function increases rapidly as the independent variable $x$ increases. Conversely, when $0 < a < 1$, the function exhibits exponential decay, where the value of the function decreases rapidly as the independent variable $x$ increases. The larger the value of $a$, the steeper the rate of growth or decay.
  • Describe how transformations of exponential functions can be used to model real-world phenomena.
    • Transformations of exponential functions, such as shifting, stretching, and reflecting, can be used to model a wide range of real-world phenomena. For example, a shifted exponential function can be used to model the growth of a population that starts at a non-zero initial value. A stretched or compressed exponential function can be used to model the rate of radioactive decay or the growth of a bacterial colony, where the rate of change is not constant. By adjusting the parameters of the exponential function, researchers and analysts can create models that closely fit the observed data and make accurate predictions about the behavior of the system being studied.
  • Analyze how the properties of exponential functions, such as constant relative change and the ability to model growth and decay, make them useful in various fields of study.
    • The unique properties of exponential functions make them invaluable for modeling a variety of real-world phenomena. The property of constant relative change, where the rate of change is proportional to the current value, allows exponential functions to accurately capture processes that exhibit exponential growth or decay, such as population growth, radioactive decay, and the spread of infectious diseases. Additionally, the flexibility of exponential functions, which can be transformed to model different scenarios, enables their application in diverse fields like finance (compound interest), biology (population dynamics), physics (radioactive decay), and computer science (growth of computing power). The ability of exponential functions to model both growth and decay patterns makes them a powerful tool for understanding and predicting the behavior of complex systems, ultimately contributing to advancements in various scientific and technological domains.
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