Chapter 1: Functions & Models 1.2 Mathematical Models: A Catalog of Essential Functions
Mathematical Model A mathematical description of a real-world phenomenon Uses a function or an equation
The modeling process… Real-World Problem Mathematical Model Mathematical Conclusions Real-World Predictions Formulate Solve Interpret Test
Stage One Formulate a mathematical model by identifying and naming the independent and dependent variables Make assumptions that simplify the phenomenon enough to make it mathematically tractable May need a graphical representation of the data
Stage Two Apply the mathematics we know to the model to derive mathematical conclusions
Stage Three Interpret the mathematical conclusions about the original real-world phenomenon by way of offering explanations or making predictions
Stage Four Test our predictions against new real data If the predictions don’t compare well, we revisit and revise
Linear Models Linear functions – The graph of the function is a line – Use slope-intercept form of the equation of a line – Grow at a constant rate
Example 1 (a) As dry air moves upward, it expands and cools. If the ground temperature is 20⁰C and the temperature at a height of 1 km is 10⁰C, express the temperature T (in ⁰C) as a function of the height h (in km), assuming that a linear model is appropriate.
Example 1 (b) Draw the graph of the function in part (a). What does the slope represent?
Example 1 (c) What is the temperature at a height of 2.5 km?
Empirical Model Used if there is no physical law of principle to help us formulate a model Based entirely on collected data Use a curve that “fits” the data (it catches the basic trend of the data points)
Example 2 Table 1 on page 26 lists the average carbon dioxide level in the atmosphere, measured in parts per million at Mauna Loa Observatory from 1980 to Use the data in Table 1 to find a model for the carbon dioxide level.
Example 3 Use the linear model given by C = t – to estimate the average CO 2 level for 1987 and to predict the level for the year According to this model, when will the CO 2 level exceed 400 parts per million?
Polynomials A function P is called a polynomial if Where n is a nonnegative integer a = constants called coefficients of the polynomial Domain = Degree of polynomial is n
Example 4 A ball is dropped from the upper observation deck of the CN Tower, 450 m above the ground, and its height h above the ground is recorded at 1-second intervals in Table 2 on pg 29. Find a model to fit the data and use the model to predict the time at which the ball hits the ground.
Power Functions A function of the form Where a is a constant
Power Functions, case 1 Where and n is a positive integer The general shape depends on whether n is even or odd As n increases, the graph becomes flatter near 0 and steeper when |x| ≥ 1
Power Functions, case 2 Where and n is a positive integer These are root functions If n is even, the domain is all positive numbers If n is odd, the domain is all real numbers
Power Functions, case 3 Where Called the reciprocal function Hyperbola with the coordinate axes as asymptotes
Rational Functions Ratio of two polynomials: Domain consists of all values such that Q(x) ≠ 0
Algebraic Functions A function constructed using algebraic operations starting with polynomials Any rational function is automatically an algebraic function Graphs can be a variety of shapes
Trigonometric Functions Radian measure always used unless otherwise indicated Domain for sine and cosine curves are all real numbers Range is closed interval [-1,1] The zeroes of the sine function occur at the integer multiples of π
Trig functions cont. Sine and cosine are periodic functions Period is 2π For all values of x, – Sin(x + 2π) = sin x – Cos(x + 2π) = cos x Use sine and cosine functions to model repetitive phenomena – Tides, vibrating springs, sound waves
Trig functions cont. Remember: Tangent function has period of π For all values of x, tan (x + π) = tan x Don’t forget about the reciprocal functions
Exponential Functions Functions of the form The base a is a positive constant Used to model natural phenomena – Population growth, radioactive decay
Logarithmic Functions Come in the form Base a is a positive constant Inverse functions of exponential functions
Transcendental Functions Not algebraic Includes trigonometric, inverse trigonometric, exponential, and logarithmic functions Comes back in chapter 11 (if you take calculus BC in college!)
Example 5 Classify the following functions as one of the types of functions:
Homework P , 9-17 odd, 21, 23, 25