Algebra II: Strand 5. Power, Polynomial, and Rational Functions; Topic 3. Rational Functions; Task 5.3.1

Size: px

Start display at page:

Download "Algebra II: Strand 5. Power, Polynomial, and Rational Functions; Topic 3. Rational Functions; Task 5.3.1"

Jasper Booth
6 years ago
Views:

1 TASK 5.3.: RATIONAL FUNCTIONS AND THEIR RECIPROCALS Solutions Rational functions appear frequently in business, science, engineering, and medical applications. This activity explores some aspects of rational functions.. Graph the function f ( x) = x using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below: (a) What is the domain of this function? D: all real numbers,!" < x < " or!"," (b) What is the range of this function? R: all real numbers,!" < x < " or!"," (c) Is the function increasing or decreasing, and over what interval(s)? Increasing over all real numbers,!" < x < " or!"," Introduce the use of interval notation as a shortcut means to describe the domain and range of a function. It is likely that many Algebra II teachers will not be familiar with interval notation, as it is generally not introduced until Precalculus. Closed interval -!" a,b# $ for a % x % b Open interval - a,b for a < x < b Semi or half intervals -!" a,b) for a # x < b ( a,b$ % for a < x # b Note :! and -! are always enclosed using parentheses.

2 2 2. Graph the function f ( x) = x using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below: (a) What is the domain of this function? D: all real numbers,!"," (b) What is the range of this function? R: all positive real numbers, 0,! "# ) (c) Is the function increasing or decreasing, and over what interval(s)? Decreasing over D:!",0 Increasing over D: ( 0,! ) = x 3 + 2x 2 + using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below: 3. Graph the function f x (a) What is the domain of this function? D: all real numbers,!"," (b) What is the range of this function? R: all real numbers,!"," (c) Is the function increasing or decreasing, and over what interval(s)?

3 3 # Increasing over D:!",! 4 & $ % 3' ( " Decreasing over D:! 4 # $ 3,0 % & ' Increasing over D: 0,! Ask participants how they found the relative maximum. Ask for volunteers to demonstrate their method on the overhead calculator or on the board. It can be approximated on the TI-83+ by using TRACE, or it can be calculated using the maximum feature under the CALC menu (2 nd,trace, 4:maximum). It can also be found by differentiating the function and setting the derivative equal to zero. Demonstrate all three methods. d ( dx x3 + 2x 2 + ) = 3x 2 + 4x 3x 2 + 4x = 0 x(3x + 4) = 0 x = 0 or 3x + 4 = 0 3x =! 4 x =! Graph the following functions along with their reciprocals. (Hint: Put the function in Y=, then make Y2= /Y). Graph using the ZOOM 4 window. Sketch your graphs on the following page. (a) f ( x) = x (b) g ( x) = x (c) h( x) = x 2 (d) p( x) = x 2 + (e) q( x) =! x

4 4 Compare the graph of each function with the graph of its reciprocal. Compare the domain and range of each function with the domain and range of its reciprocal. Compare the intervals over which each is increasing or decreasing. Note any points where either the function or its reciprocal does not exist. 4. (a) (b) # ( 0," ) # ( 0," ) D f :!"," R f :!"," D f :!",0 R f :!",0 f is increasing over D: (!","). (!",0) # ( 0," ). f f does not exist at x = 0. is decreasing over D: D f :!"," R f : #$ 0," ) % ( 0," ) D f :!",0 R f : 0,"

5 5 f is decreasing over D: (!",0) and increasing over D: ( 0,! ). increasing over D: (!",0) and decreasing over D: ( 0,! ). exist at x = 0. f f is does not (c) D f :!"," R f : #$ 0," ) % ( 0," ) D f :!",0 R f : 0," f is decreasing over D: (!",0) and increasing over D: ( 0,! ). increasing over D: (!",0) and decreasing over D: ( 0,! ). exist at x = 0. f f is does not (d) D f :!"," R f : #$," ) D f :!"," R f :( 0,% &

6 6 f is decreasing over D: (!",0) and increasing over D: ( 0,! ). increasing over D: (!",0) and decreasing over D: ( 0,! ). f is

7 7 (e) # (," ) # ( 0," ) D f :!"," R f :!"," D f :!", R f :!",0 f is decreasing over D: (!","). (!",) # (," ). f f does not exist at x =. is increasing over D: Write any generalizations that you observe about the relationship between a function and its reciprocal: When a function is increasing, its reciprocal must be decreasing. When the function is decreasing, its reciprocal must be increasing. The existence of a function at all points on an interval does not guarantee the existence of its reciprocal at all points on the interval. When the value of a function is zero, its reciprocal does not exist.

8 8 5. Without using your graphing calculator, sketch the graph of the reciprocal of each of the given functions. After you have sketched all three, then use your graphing calculator to check your sketches. Correct any errors. A. f (x) = x! 3 B. f (x) = ( x! 3) ( x + 2) C. f (x) = ( x! 3) ( x + 2) ( x! )

9 9 6. Graph the following functions and their sum. (Hint: Put Function in Y=, Function 2 in Y2=, then make Y3= Y+Y2. Change the graph style for Y3 to show the path ( football icon -0). This will make it easier to view the graph of the sum). Use the window shown. (a) f ( x) = x and g( x) = x (b) f ( x) = x 2 and g( x) = x

10 0 (c) f ( x) = 2x + and g ( x) = x 2 (d) f ( x) = x! and g( x) = ( x! ) (e) f ( x) = x! and g( x) = ( x + ) Compare the graph of the sum of the two functions with the graph of each individual function. What observations can you make about the sum of two functions? When x! ", the fractional term in the sum goes to zero; therefore, the graph of the sum approaches the graph of the non-fractional term. When x! a, where a is a zero of the fractional term, the graph of the sum approaches the graph of the fractional term.

11 7. Graph the following functions. Compare each graph with the corresponding graph from Problem 6. Turn off the graph for Y and Y2. Change the graph style for Y3 back to line, then make Y4 = the new function. Change the graph style for Y4 to path. Use the window shown. (a) f ( x) = x2 + x (b) g( x) = x3 + x (c) h( x) = 2x3 + x 2 + x 2 (d) p( x) = x2! 2x + 2 x! (e) q( x) = x2 x + Compare the two graphs. What generalizations can you make? The graphs are the same. Rational functions are not always written as algebraic fractions. They can also be expressed as the sum of a polynomial and a fraction. Ask participants, How are the sums in Problem 6 related to the rational functions in Problem 7? Give them some think time. If no one offers a suggestion, give them a hint by suggesting that they use long division to divide each rational function in Problem 7. Have them write their answers in the form q(x) + r(x), where q(x) is the quotient and r(x) is the remainder. Ask them to compare their results with f(x) and g(x) given in Problem 6. Lead them to see that f(x) and g(x) are q(x) and r(x), respectively.

12 2 TASK 5.3.: RATIONAL FUNCTIONS AND THEIR RECIPROCALS Rational functions appear frequently in business, science, engineering, and medical applications. This activity explores some aspects of rational functions.. Graph the function f ( x) = x using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below: (a) What is the domain of this function? (b) What is the range of this function? (c) Is the function increasing or decreasing, and over what interval(s)? 2. Graph the function f x = x using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below:

13 3 (a) What is the domain of this function? (b) What is the range of this function? (c) Is the function increasing or decreasing, and over what interval(s)? 3. Graph the function f ( x) = x 3 + 2x 2 + using your graphing calculator. Use a ZOOM 4 window. Sketch your graph below: (a) What is the domain of this function? (b) What is the range of this function? (c) Is the function increasing or decreasing, and over what interval(s)?

14 4 4. Graph the following functions along with their reciprocals. (Hint: Put the function in Y=, then make Y2= /Y). Graph using the ZOOM 4 window. Sketch your graphs on the following page. (a) f ( x) = x (b) g ( x) = x (c) h( x) = x 2 (d) p( x) = x 2 + (e) q( x) =! x Compare the graph of each function with the graph of its reciprocal. Compare the domain and range of each function with the domain and range of its reciprocal. Compare the intervals over which each is increasing or decreasing. Note any points where either the function or its reciprocal does not exist. Write any generalizations that you observe about the relationship between a function and its reciprocal:

15 5

16 6 5. Without using your graphing calculator, sketch the graph of the reciprocal of each of the given functions. After you have sketched all three, then use your graphing calculator to check your sketches. Correct any errors. A. f (x) = x! 3 B. f (x) = (x! 3)(x + 2) C. f (x) = (x! 3)(x + 2)(x! )

17 7 6. Graph the following functions and their sum. (Hint: Put Function in Y=, Function 2 in Y2=, then make Y3= Y+Y2. Change the graph style for Y3 to show the path ( football icon -0). This will make it easier to view the graph of the sum). Use the window shown. (a) f ( x) = x and g( x) = x (b) f ( x) = x 2 and g( x) = x (c) f ( x) = 2x + and g ( x) = x 2 (d) f ( x) = x! and g( x) = (e) f ( x) = x! and g( x) = ( x! ) ( x + ) Compare the graph of the sum of the two functions with the graph of each individual function. What observations can you make about the sum of two functions?

18 8 7. Graph the following functions. Compare each graph with the corresponding graph from Problem 6. Turn off the graph for Y and Y2. Change the graph style for Y3 back to line, then make Y4 = the new function. Change the graph style for Y4 to path. Use the window shown. (a) f ( x) = x2 + x (b) g( x) = x3 + x (c) h( x) = 2x3 + x 2 + x 2 (d) p( x) = x2! 2x + 2 x! (e) q( x) = x2 x + Compare the two graphs. What generalizations can you make?

Review all the activities leading to Midterm 3. Review all the problems in the previous online homework sets (8+9+10).

Review all the activities leading to Midterm 3. Review all the problems in the previous online homework sets (8+9+10). MA109, Activity 34: Review (Sections 3.6+3.7+4.1+4.2+4.3) Date: Objective: Additional Assignments: To prepare for Midterm 3, make sure that you can solve the types of problems listed in Activities 33 and