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College Algebra Acosta/Karwowski. CHAPTER 3 Nonlinear functions.

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Presentation on theme: "College Algebra Acosta/Karwowski. CHAPTER 3 Nonlinear functions."— Presentation transcript:

1 College Algebra Acosta/Karwowski

2 CHAPTER 3 Nonlinear functions

3 CHAPTER 3 SECTION 1 Some basic functions and concepts

4 Non linear functions Equation sort activity

5 Analyzing functions Analyzing a function means to learn all you can about the function using tables, graphs, logic, and intuition We will look at a few simple functions and build from there Some basic concepts are: increasing/decreasing intervals x and y intercepts local maxima/minima actual maximum/minimum (end behavior)

6 Maximum/ minimum Maximum – the highest point the function will ever attain Minimum – the lowest point the function will ever attain Local maxima – is the exact point where the function switches from increasing to decreasing Local mimima – the exact point where the function switches from decreasing to increasing

7 Examples:

8 Using technology to find intercepts When you press the trace button it automatically sets on the y – intercept Under 2 nd trace you have a “zero” option. The x – intercepts are often referred to as the zeroes of the function – this option will locate the x-intercepts if you do it correctly – the book explains how Easier method is to enter y = 0 function along with your f(x). This is the x axis. You have created a system. Then use the intersect feature (#5) You do need to trace close to the intercept but you then enter 3 times and you will have the x- intercept

9 Examples Find the intercepts for the following functions f(x) = 3x 3 + x 2 – x g(x) = | 3 – x 2 | - 2

10 Even/odd functions when f(x) = f(-x) for all values of x in the domain f(x) is an even function An even function is symmetric across the y – axis When f(-x) = - f(x) for all values of x in the domain f(x) is an odd function An odd function has rotational symmetry around the origin

11 Examples - graphically Even odd neither

12 Examples - algebraically Even ? odd ? neither f(x) = x 2 g(x) = x 3 k(x) = x + 5 m(x) = x 2 – 1 n(x) = x 3 – 1 j(x) = (3+x 2 ) 3 l(x)= (x 5 – x) 3

13 Analyzing some basic functions

14 One – non linear relation x 2 + y 2 = 1 Distance formula – what the equation actually says

15 CHAPTER 3 - SECTION 2 Transformations

16 f(x) notation with variable expressions given f(x) = 2x + 5 What does f(3x) = What does f(x – 7) = What does f(x 2 )= Essentially you are creating a new function. The new function will take on characteristics of the old function but will also insert new characteristics from the variable expression.

17 Function Families When you create new functions based on one or more other functions you create “families” of functions with similar characteristics We have 7 basic functions on which to base families Transformations are functions formed by shifting and stretching known functions There are 3 types of transformations translations - shifts left, right, up, or down dilations – stretching or shrinking either vertically or horizontally rotating - turning the shape around a given point NOTE: we will not discuss rotational transformations

18 Translations A vertical translation occurs when you add the same amount to every y-coordinate in the function If g(x) = f(x) + a then g(x) is a vertical translation of f(x); a units A horizontal translation occurs when you add the same amount to every x- coordinate in the function If g(x) = f(x – a) then g(x) is a horizontal translation of f(x); a units

19 Determine the parent function and the transformation indicated- sketch both

20 Dilations/flips

21 Determine the parent function and the transformation indicated and sketch both graphs

22 Dilations with translations

23 Given a graph determine its equation

24 Given a graph determine its equation

25 Given a graph determine its equation

26 CH 4 - CIRCLES Standard form of equation

27 Transformations/ standard form (x – h) 2 + (y – k) 2 = r 2 This textbook calls this standard form for the circle equation It essentially embodies a transformation on the circle where the scale factor has been factored out and put to the other side Thus (h,k) are the coordinates of the center of the circle and r is the radius of the circle

28 Graphing circles (x – 5) 2 + (y + 2) 2 = 16

29 Writing the equation Given center and radius simply fill in the blanks A circle with radius 5 and center at (-2, 5) Given center and a point - find radius and fill in blanks A circle with center at (4,8) that goes through (7, 12)

30 CHAPTER 3 SECTION 3 Piece wise graphing

31 Sometimes an equation restricts the values of the domain Sometimes circumstances restrict the values of the domain Ex. For sales of tickets in groups of 30 -50 tickets the price will be $9 Algebra states this problem: p(x) = 9x for 30<x<50

32 Piecewise functions A function that is built from pieces of functions by restricting the domain of each piece so that it does not overlap any other. Note: sometimes the functions will connect and other times they will not.

33 Examples

34 CHAPTER 3 - SECTION 4 Absolute value equations

35 Absolute value equations/ inequality

36 Solving algebraically Isolate the absolute value Write 2 equations Solve both equations – write solution Ex. |2x - 3| = 2 |2x – 3| 2 | 5 – 3x | + 5 = 12 4 - |x + 3| > - 12 | x – 2| = | 4 – 3x|

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