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# Input-Output Tables for Function Rules

## Use function rules to complete patterns in tables.

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Practice Input-Output Tables for Function Rules
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Evaluating Function Rules

Credit: Sam Howzit
Source: https://www.flickr.com/photos/aloha75/8120676717/in/photolist-dnAAgx-4wgXPt-7AprFh-j3uu9-hEHrxG-9BjTJK-4jfPMn-7SQYXv-d5Vd9N-4XYm3G-b4ogb8-dQNH1R-brwtX3-ekebZ6-84jVAW-8vfh7d-5jo5dJ-b4oekH-s2z8o-5jo52h-3Ku3s-6Lh87f-uv6-5A1WdU-5A1VSj-5A1Vvf-6bVFM3-3eZnr-3eZnq-631ipw-s2zNg-8FejTM-5E4RYZ-dqEwfZ-wh1eU-77UKRV-5MD25t-b44F38-72w2S-72vZ1-72vQH-72uZM-9g6GY9-bkMkhW-9g3CFM-62W3Sr-62W3Qa-5A1Va9-kE7mCe-5f8pRj

Timothy is planning a surprise birthday party for his sister at the local bowling alley. He has already arranged the food but wants to include bowling as an extra. The bowling alley has told Timothy that bowling shoes cost a flat rate of $2.00 and the cost to bowl is$3.00 per game. He has to figure out the cost for his sister and three friends to bowl and how many games they can bowl. Timothy only has 50.00 to spend on bowling. How can he figure out how many games they can bowl and have enough money to pay the total cost for four people? In this concept, you will learn to evaluate function rules. ### Guidance A function is a relation such that each member of the domain is paired with one and only one member of the range. A set of ordered pairs (x,y\begin{align*}x, y\end{align*}) is a relation. The domain is the set of values made up of the x\begin{align*}x\end{align*}-coordinates of the ordered pairs while the range is the set of values made up of the y\begin{align*}y\end{align*}-values of the ordered pairs. A function table is an output/input table where the input value is a member of the domain and the output value is a member of the range. The output value is the result of an operation or operations performed on the input value and its value depends upon the input number. Look at the following function table:  Input Output 3 6 4 8 5 10 6 12 If ‘x\begin{align*}x\end{align*}’ represents the input value and ‘y\begin{align*}y\end{align*}’ represents the output value, the table can be used to write a function rule. A function rule is an expression written in either words or symbols to represent the operation or operations performed on the input number to give the output number. From the above table it is obvious that each output number ‘y\begin{align*}y\end{align*}’ is the result of doubling the input number ‘x\begin{align*}x\end{align*}.’ The function rule written using symbols is the equation: y=2x Let’s apply a function rule to complete the following input/output table. Use the function rule y=3x+2\begin{align*}y=3x+2\end{align*} to complete the table below.  Input (x)\begin{align*}(x)\end{align*} Output (y)\begin{align*}(y)\end{align*} 2 8 3 11 4 14 5 17 First, substitute the input value of 2 into the function rule for the variable ‘x\begin{align*}x\end{align*}.’ yy==3x+23(2)+2 Next, perform the multiplication to clear the parenthesis. yy==3(2)+26+2 Next, perform the addition on the right side of the equation. yy==6+28 The answer is 8. The output value is 8 when the input value is 2. Then, write the output number in the table. Repeat the above process for each of the given input numbers. xyyyy=====33x+23(3)+29+211 The answer is 11. xyyyy=====43x+23(4)+212+214 The answer is 14. xyyyy=====53x+23(5)+215+217 The answer is 17. Then, complete the table by filling in the calculated output numbers. ### Guided Practice Use the following function rule to complete the input/output table. y=2x5  Input (x)\begin{align*}(x)\end{align*} Output (y)\begin{align*}(y)\end{align*} -5 -15 -1 -7 2 -1 6 7 First, substitute the input value of -5 into the function rule for the variable ‘x\begin{align*}x\end{align*}.’ yy==2x52(5)5 Next, perform the multiplication to clear the parenthesis. yy==2(5)5105 Next, perform the addition of the two negative values on the right side of the equation. yy==10515 The answer is -15. The output value is -15 when the input value is -5. Then, write the output number in the table. Repeat the above process for each of the given input numbers. xyyyy=====12x52(1)5257 The answer is -7. xyyyy=====22x52(2)5451 The answer is -1. xyyyy=====62x52(6)51257 The answer is 7. ### Examples #### Example 1 Use the given function rule to complete the input/output table: y=4x3  Input (x)\begin{align*}(x)\end{align*} Output (y)\begin{align*}(y)\end{align*} 4 13 5 17 7 25 9 33 First, substitute the input value of 4 into the function rule for the variable ‘x\begin{align*}x\end{align*}.’ yy==4x34(4)3 Next, perform the multiplication to clear the parenthesis. yy==4(4)3163 Next, perform the subtraction on the right side of the equation. yy==16313 The answer is 13. The output value is 13 when the input value is 4. Then, write the output number in the table. Repeat the above process for each of the given input numbers. xyyyy=====54x34(5)320317 The answer is 17. xyyyy=====74x34(7)328325 The answer is 25. xyyyy=====94x34(9)336333 The answer is 33. #### Example 2 Use the given function rule to complete the input/output table: y=2x+7  Input (x)\begin{align*}(x)\end{align*} Output (y)\begin{align*}(y)\end{align*} -14 35 -9 25 4 -1 11 -15 First, substitute the input value of -14 into the function rule for the variable ‘x\begin{align*}x\end{align*}.’ yy==2x+72(14)+7 Next, perform the multiplication to clear the parenthesis. yy==2(14)+728+7 Next, perform the addition on the right side of the equation. yy==28+735 The answer is 35. The output value is 35 when the input value is -14. Then, write the output number in the table. Repeat the above process for each of the given input numbers. xyyyy=====92x+72(9)+718+725 The answer is 25. xyyyy=====42x+72(4)+78+71 The answer is -1. xyyyy=====112x+72(11)+722+715 The answer is -15. #### Example 3 Use the given function rule to complete the input/output table:  Input \begin{align*}(x)\end{align*} Output \begin{align*}(y)\end{align*} -10 -44 -7 -35 2 -8 9 13 First, substitute the input value of -10 into the function rule for the variable ‘\begin{align*}x\end{align*}.’ Next, perform the multiplication to clear the parenthesis. Next, perform the addition on the right side of the equation. The answer is -44. The output value is -44 when the input value is -10. Then, write the output number in the table. Repeat the above process for each of the given input numbers. The answer is -35. The answer is -8. The answer is 13. ### Follow Up Credit: Emily Goodstein Source: https://www.flickr.com/photos/emilygoodstein/5437071173/in/photolist-9hspQr-9hsp96-9hsoPB-9hvvB1-9hsnS4-9hvuAJ-9hvu8E-9hvtMN-9hvtdS-9hskWT-9hvsAG-9hvs1w-9hsjfn-9hvr3d-9hsitc-9hsi1z-9hsh6p-9hvoXy-9hvo8Y-9hsfvp-9hvnjE-9hseKa-9hsen6-7vzMwk-7vzMDX-7vzNvv-7vDBs7-7vDBEh-7vzMmk-7vzMfv-7vDBxb-7vzMP4-97kMgo-7vzM32-7vDBmU-7vzMWF-7vDAQ3-7vDAvu-7vzLVF-97hGXe-97kMfY-97kMgj-97kMg9-97kMgf-97kMgq-97QQyH-97QPL6-97QPLg-97QPKZ-97QPL8 License: CC BY-NC 3.0 Remember Timothy and the surprise birthday party? He needs to figure out how many games of bowling his sister and her friends can play for50.00 or less.

First, he must write a function rule to represent the information he has from the bowling alley.

Shoes are a flat rate of $2.00 and each game played costs$3.00. The function rule for the information is: \begin{align*}y = 3x+2\end{align*} where '\begin{align*}y\end{align*}' is the total cost and '\begin{align*}x\end{align*}' is the number of games played.

Next, create an input/output table.

 Input \begin{align*}(x)\end{align*} Output \begin{align*}(y)\end{align*} 1 $5.00 2$8.00 3 $11.00 4$14.00

First, substitute the input value of 1 into the function rule for the variable ‘\begin{align*}x\end{align*}.’

Next, perform the multiplication to clear the parenthesis.

Next, perform the addition on the right side of the equation.

The output value is $5.00 for one person to bowl one game. Next, write the output number in the table. Then, multiply$5.00 by 4 to determine the cost for four people to bowl one game.

The answer is $20.00. It will cost$20.00 for his sister and three friends to bowl one game.

First, substitute the input value of 2 into the function rule for the variable ‘\begin{align*}x\end{align*}.’

Next, perform the multiplication to clear the parenthesis.

Next, perform the addition on the right side of the equation.

The output value is $8.00 for one person to bowl two games. Next, write the output number in the table. Then, multiply$8.00 by 4 to determine the cost for four people to bowl two games.

The answer is $32.00. It will cost$32.00 for his sister and three friends to bowl two games.

First, substitute the input value of 3 into the function rule for the variable ‘\begin{align*}x\end{align*}.’

Next, perform the multiplication to clear the parenthesis.

Next, perform the addition on the right side of the equation.

The output value is $11.00 for one person to bowl three games. Next, write the output number in the table. Then, multiply$11.00 by 4 to determine the cost for four people to bowl three games.

The answer is $44.00. It will cost$44.00 for his sister and three friends to bowl three games.

First, substitute the input value of 4 into the function rule for the variable ‘\begin{align*}x\end{align*}.’

Next, perform the multiplication to clear the parenthesis.

Next, perform the addition on the right side of the equation.

The output value is $14.00 for one person to bowl four games. Next, write the output number in the table. Then, multiply$14.00 by 4 to determine the cost for four people to bowl four games.

The answer is $56.00. It will cost$56.00 for his sister and three friends to bowl four games.

Timothy has enough money for his sister and three friends to bowl three games.

### Explore More

For numbers 1-5, find each output if the function rule is \begin{align*}y = 3x+2\end{align*}.

 Problem Number Input Output 1. 3 2. 5 3. 6 4. 9 5. 11

For numbers 6-10, find each output if the function rule is \begin{align*}y=4x\end{align*}.

 Problem Number Input Output 6. -3 7. -4 8. 0 9. 1 10. 2

For numbers 11-15, find each output if the function rule is \begin{align*}y=-3x\end{align*}.

 Problem Number Input Output 11. 4 12. 5 13. 7 14. 9 15. 10

16. A pastry chef needs to purchase enough dough for her cookies. She buys one pound of dough for every twenty cookies she is going to make. She uses the function \begin{align*}d(c)=\frac{c}{20}\end{align*} where \begin{align*}c\end{align*} is the number of cookies and \begin{align*}d\end{align*} is the pounds of dough she should buy. Identify which variable is the domain and which is the range.

17. Evaluate the function \begin{align*}f(x)=2x+7\end{align*} when the domain is \begin{align*}\{-3, -1, 1, 3 \}\end{align*}.

18. Evaluate the function \begin{align*}f(x)= \frac{2}{5}x-6\end{align*} when the domain is \begin{align*}\{-10, -5, 0, 5, 10 \}\end{align*}.

19. Evaluate the function \begin{align*}f(x)=3x-1\end{align*} when the domain is \begin{align*}\{5, 6, 7, 8, 9 \}\end{align*}.

20. Evaluate the function \begin{align*}f(x)=x-9\end{align*} when the domain is \begin{align*}\{1, 2, 3, 4, 5 \}\end{align*}.

### Vocabulary Language: English

domain

domain

The domain of a function is the set of $x$-values for which the function is defined.
Function

Function

A function is a relation where there is only one output for every input. In other words, for every value of $x$, there is only one value for $y$.
Function Rule

Function Rule

A function rule describes how to convert an input value ($x$) into an output value ($y$) for a given function. An example of a function rule is $f(x) = x^2 + 3$.
input

input

The input of a function is the value on which the function is performed (commonly the $x$ value).
Linear Function

Linear Function

A linear function is a relation between two variables that produces a straight line when graphed.
Output

Output

The output of a function is the result of the operations performed on the independent variable (commonly $x$). The output values are commonly the values of $y$ or $f(x)$.
Range

Range

The range of a function is the set of $y$ values for which the function is defined.
Relation

Relation

A relation is any set of ordered pairs $(x, y)$. A relation can have more than one output for a given input.

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