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Section 2-2: Power Functions With Modeling. Chapter 2: Polynomial, Power, and Rational Functions. Objectives. You will learn about: Power functions and variation Monomial functions and their graphs Graphs of power functions Modeling with power functions Why?
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Section 2-2: Power Functions With Modeling Chapter 2:Polynomial, Power, and Rational Functions
Objectives • You will learn about: • Power functions and variation • Monomial functions and their graphs • Graphs of power functions • Modeling with power functions • Why? • Power functions specify the proportional relationships of geometry, chemistry, and physics
Vocabulary • Power function • Power • Constant of variation (constant of proportion) • Varies as • Proportional to • Direct variation • Inverse variation • Monomial function
Power Function • Any function that can be written in the form: • f(x)=k∙xa where k and x are nonzero constants is a power function. • Parts of a power function: • a is the power • k is the constant of variation/constant of proportion • We can say: • f(x) varies as the a-th power of x. • f(x) is proportional to the a-th power of x
Example 1Writing a Power Function Formula • From empirical evidence and the laws of physics, it has been found that the period time T for the full swing of a pendulum varies as the square root of the pendulums length L, provided that the swing is small relative to the length of the pendulum. Express the relationship as a power function.
Example 2Analyzing Power Functions • State the power and constant of variation for the function, graph it, and analyze it.
Monomial Function • Any function that can be written as f(x)= k or f(x) = k∙xn where k is a constant and n is a positive integer is a monomial function
Graphing Monomial Functions • Describe how to obtain the graph of the given function from the graph of g(x)=xn with the same power n. Sketch the graph by hand.
Graphs of Power Functions (x ≥ 0) k > 0 • There are 4 basic shapes for general power functions of the form f(x)=kxa x ≥ 0. • In every case: • The graph contains the point (1, k) • If the power is positive, the graph contains the point (0, 0) • If the exponent is negative, there are asymptotes on both axes. k < 0
Graphs of Power Functions (x < 0) • In general, for power functions where x < 0, one of the three following things will happen: • f is undefined for x < 0 • f is an even function, so it is symmetric about the y-axis • f is an odd function, so it is symmetric about the origin.
Example 4Graphing Power Functions • State the values of the constants k and a. Describe the portion of the cure that lies in Quadrant I or Quadrant IV. Determine whether f is even, odd, or undefined for x < 0. Describe the rest of the curve, if any. Graph the function. • F(x)=2x-3 • F(x)=-0.4x1.5 • F(x)=-x0.4
Example 5Modeling Planetary Data with a Power Function • Use the table to obtain a power function model for orbital period as a function of average distance from the sun. Then use the model to predict the orbital period for Neptune, which is 4497 GM from the sun on average.
Example 6Modeling Free-Fall Speed Versus Distance • Use the data to obtain a power function model for speed p versus distance traveled d. Then use the model to predict the speed of the ball at impact given that impact occurs when d=1.80 m.