Introduction When linear functions are used to model real-world relationships, the slope and y-intercept of the linear function can be interpreted in context.

Slides:



Advertisements
Similar presentations
Interpreting Slope and y-intercept ~adapted from walch education.
Advertisements

Introduction Exponential functions are functions that can be written in the form f(x) = ab x, where a is the initial value, b is the rate of decay or growth,
Lesson 5.1 Write Equations in Slope-Intercept Form.
Warm Up 0?1? 2? Graph the linear functions.0?1? 2?
 An equation of a line can be written in slope- intercept form y = mx + b where m is the slope and b is the y- intercept.  The y-intercept is where.
Copyright © 2012 Pearson Education, Inc. 2.3 Another Look at Linear Graphs ■ Graphing Horizontal Lines and Vertical Lines ■ Graphing Using Intercepts ■
Quick graphs using Intercepts 4.3 Objective 1 – Find the intercepts of the graph of a linear equation Objective 2 – Use intercepts to make a quick graph.
Pre-Class Warm Up Find the slope of the line that passes through each pair of points. 1. (3, 6) and (-1, 4) 2. (1, 2) and (6, 1) 3. (4, 6) and (2, -1)
Slope – Intercept Form What do all the points on the y-axis have in common? What do all the points on the x-axis have in common?
Finding the Intercepts of a Line
Learn to use slopes and intercepts to graph linear equations.
Slope-Intercept Form Page 22 10/15. Vocabulary y-Intercept: the point at which a function crosses the y-axis (0, y) x-intercept: the point at which a.
Graphing Linear Equations In Slope-Intercept Form.
Unit 3 Linear Functions and Patterns
Objectives Determine whether a function is linear.
Graphing Linear Equations in Slope-Intercept Form.
Write an equation given the slope and y-intercept EXAMPLE 1 Write an equation of the line shown.
~adapted from Walch Education CONSTRUCTING FUNCTIONS FROM GRAPHS AND TABLES.
Introduction Remember that linear functions are functions that can be written in the form f(x) = mx + b, where m is the slope and b is the y-intercept.
Chapter 1 Linear Equations and Graphs Section 2 Graphs and Lines.
~adapted from Walch Education A scatter plot that can be estimated with a linear function will look approximately like a line. A line through two points.
Chapter 1 Linear Equations and Graphs Section 2 Graphs and Lines.
Introduction Data surrounds us in the real world. Every day, people are presented with numbers and are expected to make predictions about future events.
Write an equation given the slope and y-intercept EXAMPLE 1 Write an equation of the line shown.
Introduction Tables and graphs can be represented by equations. Data represented in a table can either be analyzed as a pattern, like the data presented.
Section 6-3: Standard Form of a Linear Equation SPI 22C: select the graph that represents a given linear function Objective: Graph and write linear equations.
Algebra Review for Units 3 and 4: Graphing Linear Equations and Inequalities Critical Thinking Skill: Demonstrate Undestanding of Concepts
Warm Up Find the slope of the line that passes through each pair of points. 1. (3, 6) and (–1, 4) 2. (1, 2) and (6, 1) 3. (4, 6) and (2, –1) 4. (–3, 0)
Using Slopes and Intercepts 8-3 Warm Up Warm Up Lesson Presentation Lesson Presentation Problem of the Day Problem of the Day Lesson Quizzes Lesson Quizzes.
Graphing Equations of Lines Using x- and y-Intercepts.
5-3 Slope Intercept Form A y-intercept of a graph is the y-coordinate of a point where the graph crosses the y-axis. *Use can use the slope and y-intercept.
x = 100, solve for x. 2.Given the data below, what is the probability that a person will buy a bicycle rather than a scooter. 3.x – 30 = -50, solve.
Section 2.6 Using and Rearranging Formulas. 2.6 Lecture Guide: Using and Rearranging Formulas To solve a linear equation for a specified variable, we.
8.4 The Slope-Intercept Form of a Linear Equation Objective: To use the Slope-Intercept Form of a linear equation. Warm – up: Solve each equation for y.
Check it out! 4.3.1: Interpreting Slope and y-intercept
Warm-up Presentation Lesson Quiz
Introduction When linear functions are used to model real-world relationships, the slope and y-intercept of the linear function can be interpreted in context.
X and Y Intercepts.
Introduction Verbal descriptions of mathematical patterns and situations can be represented using equations and expressions. A variable is a letter used.
Introduction Constraint equations are used to model real-life situations that involve limits. Unlike other types of equations used for modeling, constraint.
Solving Problems Given Functions Fitted to Data/Interpreting Slope and y-intercept Key Terms: Linear Fit Slope Scatter Plot 1 4.6: Solving Problems Given.
What can I expect to make on a test if I do no homework? Homework Strike!!
Writing Linear Equations (Slope- Intercept Form).
Copyright © 2009 Pearson Education, Inc. CHAPTER 1: Graphs, Functions, and Models 1.1 Introduction to Graphing 1.2 Functions and Graphs 1.3 Linear Functions,
Section 1.4 Equations of Lines and Modeling Copyright ©2013, 2009, 2006, 2001 Pearson Education, Inc.
Lesson 2.5 – Graphing Lines Concept: Graphing Lines EQ: How do we graph linear equations? CED 2 Vocabulary: Coordinate PlaneIndependent Variable SlopeDependent.
Slope-Intercept Form of a Linear Equation. Is this a linear equation? 3x + 2y = 6.
The y-intercept and slope-intercept form/ Writing linear equations from graphs. 1/11/15.
Holt McDougal Algebra Slope-Intercept Form Warm Up Find each y-intercept. 1. y = 3x x – 3y = 12 Find each slope x + 2y = x.
SOLVING LINEAR SYSTEMS by GRAPHING ADV133 Put in slope-intercept form: y = mx + b. y = 4x – 1 y = –x + 4 The solution to a system of linear equations is.
Introduction In this lesson, different methods will be used to graph lines and analyze the features of the graph. In a linear function, the graph is a.
Equations in Slope- Intercept Form Honors Math – Grade 8.
Pre-Algebra 11-3 Using Slopes and Intercepts Warm Up Find the slope of the line that passes through each pair of points. 1. (3, 6) and (-1, 4) 2. (1, 2)
Algebra 2 Lesson 2-2 ALGEBRA 2 LESSON 2-2 Linear Equations 1-1.
Standard Form Equation of a Line Name Feb 29, 2011 Are these equations of the SAME LINE? y = x + 2 x – y = -2.
Lesson 8.6 Writing Linear Equations Essential Question: How do you write linear equations?
 An equation of a line can be written in slope- intercept form y = mx + b where m is the slope and b is the y- intercept.  The y-intercept is where.
Using Slopes and Intercepts Warm Up Find the slope of the line that passes through each pair of points. 1. (3, 6) and (–1, 4) 2. (1, 2) and (6, 1) 3. (4,
3.5 Graphing Linear Equations in Slope-Intercept Form
4.2.4: Warm-up, Pg.81 The data table to the right shows temperatures in degrees Fahrenheit taken at 7:00 A. M. and noon on 8 different days throughout.
Pre-Algebra Q3W2: Graphing Linear Equations and interpreting Graphs.
Unit 4 Part B Concept: Best fit Line EQ: How do we create a line of best fit to represent data? Vocabulary: R – correlation coefficient y = mx + b slope.
Warm up 1. Calculate the slope of a line passing through (2, 3) and (1, 5). 2. Write the equation of a line given a slope of 3 and a y-intercept of 4 (hint:
3.5 Graphing Linear Equations in Slope-Intercept Form
Introduction The relationship between two variables can be estimated using a function. The equation can be used to estimate values that are not in the.
Introduction Remember that linear functions are functions that can be written in the form f(x) = mx + b, where m is the slope and b is the y-intercept.
Graphing Linear Equations in Slope-Intercept Form Notes 3.5
Graphing Graph of a Linear Equation x and y Intercepts Slope of a Line
Objective Find slope by using the slope formula..
Presentation transcript:

Introduction When linear functions are used to model real-world relationships, the slope and y-intercept of the linear function can be interpreted in context. Recall that data in a scatter plot can be approximated using a linear fit, or linear function that models real-world relationships. A linear fit is the approximation of data using a linear function. 4.3.1: Interpreting Slope and y-intercept

Introduction, continued The slope of a linear function is the change in the dependent variable divided by the change in the independent variable, or , sometimes written as . 4.3.1: Interpreting Slope and y-intercept

Introduction, continued The slope between two points (x1, y1) and (x2, y2) is , and the slope in the equation y = mx + b is m. The slope describes how much y changes when x changes by 1. When analyzing the slope in the context of a real-world situation, remember to use the units of x and y in the calculation of the slope. 4.3.1: Interpreting Slope and y-intercept

Introduction, continued For example, if the x-axis of a graph represents hours and the y-axis represents miles traveled, the slope of a linear function graphed on these axes would be , or the miles traveled each hour. 4.3.1: Interpreting Slope and y-intercept

Introduction, continued The y-intercept of a function is the value of y at which the graph of the function crosses the y-axis, or the value of y when x equals 0. When analyzing the y-intercept in a real-world context, this is the starting value of whatever is represented by the y-axis. For example, if the x-axis represents hours and the y-axis represents miles traveled, the y-intercept would be the miles traveled when the number of hours equals 0. The y-intercept in the equation y = mx + b is b. In some cases, the y-intercept doesn’t make sense in context, such as when the quantity of x equals 0, and the y-intercept is something other than 0 (see Example 2). 4.3.1: Interpreting Slope and y-intercept

Key Concepts The slope of a line with the equation y = mx + b is m. The slope of a line is ; the slope between two points (x1, y1) and (x2, y2) is . In context, the slope describes how much the dependent variable changes each time the independent variable changes by 1 unit. 4.3.1: Interpreting Slope and y-intercept

Key Concepts, continued The y-intercept of a line with the equation y = mx + b is b. The y-intercept is the value of y at which a graph crosses the y-axis. In context, the y-intercept is the initial value of the quantity represented by the y-axis, or the quantity of y when the quantity represented by the x-axis equals 0. 4.3.1: Interpreting Slope and y-intercept

Common Errors/Misconceptions incorrectly calculating the slope confusing the y- and x-intercepts, both in context and when calculating using a graph or equation 4.3.1: Interpreting Slope and y-intercept

Guided Practice Example 1 The graph on the next slide contains a linear model that approximates the relationship between the size of a home and how much it costs. The x-axis represents size in square feet, and the y-axis represents cost in dollars. Describe what the slope and the y-intercept of the linear model mean in terms of housing prices. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Cost in dollars ($) Size in square feet 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Find the equation of the linear fit. The general equation of a line in slope-intercept form is y = mx + b, where m is the slope and b is the y-intercept. Find two points on the line using the graph. The graph contains the points (300, 60,000) and (600, 120,000). 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued The formula to find the slope between two points (x1, y1) and (x2, y2) is . Substitute (300, 60,000) and (600, 120,000) into the formula to find the slope. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued The slope between the two points (300, 60,000) and (600, 120,000) is 200. Slope formula Substitute (300, 60,000) and (600, 120,000) for (x1, y1) and (x2, y2). Simplify as needed. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Find the y-intercept. Use the equation for slope-intercept form, y = mx + b, where b is the y-intercept. Replace x and y with values from a single point on the line. Let’s use (300, 60,000). Replace m with the slope, 200. Solve for b. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued The y-intercept of the linear model is 0. The equation of the line is y = 200x. y = mx + b Equation for slope-intercept form 60,000 = 200(300) + b Substitute values for x, y, and m. 60,000 = 60,000 + b Multiply. 0 = b Subtract 60,000 from both sides. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Determine the units of the slope. Divide the units on the y-axis by the units on the x-axis: . The units of the slope are dollars per square foot. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Describe what the slope means in context. The slope is the change in cost of the home for each square foot of the home. The slope describes how price is affected by the size of the home purchased. A positive slope means the quantity represented by the y-axis increases when the quantity represented by the x-axis also increases. The cost of the home increases by $200 for each square foot. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued Determine the units of the y-intercept. The units of the y-intercept are the units of the y-axis: dollars. 4.3.1: Interpreting Slope and y-intercept

✔ Guided Practice: Example 1, continued Describe what the y-intercept means in context. The y-intercept is the value of the equation when x = 0, or when the size of the home is 0 square feet. For a home with no area, or for no home, the cost is $0. ✔ 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 1, continued http://walch.com/ei/CAU4L3S1DescribeLine 4.3.1: Interpreting Slope and y-intercept

Guided Practice Example 2 A teller at a bank records the amount of time a customer waits in line and the number of people in line ahead of that customer when he or she entered the line. Describe the relationship between waiting time and the people ahead of a customer when the customer enters a line. Use the table on the following slide. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued People ahead of customer Minutes waiting 1 10 2 21 3 32 5 35 8 42 9 45 61 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Create a scatter plot of the data. Let the x-axis represent the number of people ahead of the customer and the y-axis represent the minutes spent waiting. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Minutes spent waiting Number of people ahead 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Find the equation of a linear model to represent the data. Use two points to estimate a linear model. A line through the two points should have approximately the same number of data values both above and below the line. A line through the first and last data points, (1, 10) and (10, 61), appears to be a good approximation of the data. Find the slope. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued The slope between two points (x1, y1) and (x2, y2) is . Substitute the points into the formula to find the slope. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued The slope between the two points (1, 10) and (10, 61) is approximately 5.67. Slope formula Substitute (1, 10) and (10, 61) for (x1, y1) and (x2, y2). Simplify as needed. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Find the y-intercept. Use the equation for slope-intercept form, y = mx + b, where b is the y-intercept. Replace x and y with values from a single point on the line. Let’s use (1, 10). Replace m with the slope, 5.67. Solve for b. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued The y-intercept of the linear model is 4.33. The equation of the line is y = 5.67x + 4.33. y = mx + b Equation for slope-intercept form 10 = 1(5.67) + b Substitute values for x, y, and m. 10 = 5.67 + b Simplify. 4.33 = b Subtract 5.67 from both sides. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Determine the units of the slope. Divide the units on the y-axis by the units on the x-axis: . The units of the slope are minutes per person. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Describe what the slope means in context. The slope describes how the waiting time increases for each person in line ahead of the customer. A customer waits approximately 5.67 minutes for each person who is in line ahead of the customer. 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued Determine the units of the y-intercept. The units of the y-intercept are the units of the y-axis: minutes. 4.3.1: Interpreting Slope and y-intercept

✔ Guided Practice: Example 2, continued Describe what the y-intercept means in context. The y-intercept is the value of the equation when x = 0, or when the number of people ahead of the customer is 0. The y-intercept is 4.33. In this context, the y-intercept isn’t relevant, because if no one was in line ahead of a customer, the wait time would be 0 minutes. Creating a linear model that matched the data resulted in a y-intercept that wasn’t 0, but this value isn’t related to the context of the situation. ✔ 4.3.1: Interpreting Slope and y-intercept

Guided Practice: Example 2, continued http://walch.com/ei/CAU4L3S1DescribeRel 4.3.1: Interpreting Slope and y-intercept