Presentation is loading. Please wait.

Presentation is loading. Please wait.

2.5 – Modeling Real World Data:. Using Scatter Plots.

Published byCleopatra Skinner Modified over 9 years ago

Similar presentations

Presentation on theme: "2.5 – Modeling Real World Data:. Using Scatter Plots."— Presentation transcript:

1 2.5 – Modeling Real World Data:

2 Using Scatter Plots

3 Ex.1 The table below shows the median selling price of new, privately-owned, one-family houses for some recent years.

4 Year199019921994199619982000 Price ($1000) 122.9121.5130140152.5169

5 Ex.1 The table below shows the median selling price of new, privately-owned, one-family houses for some recent years. a.Make a scatter plot of the data. Year199019921994199619982000 Price ($1000) 122.9121.5130140152.5169

6

7 Years Since 1990

8 Price Years Since 1990

9 Price ($1000) Years Since 1990

10 Median House Prices Price ($1000) Years Since 1990

11 Median House Prices Price ($1000) 0 Years Since 1990

12 Median House Prices Price ($1000) 0 2 4 6 8 10 Years Since 1990

13 Median House Prices Price ($1000) 0 2 4 6 8 10 Years Since 1990

14 Median House Prices Price ($1000) 120 0 2 4 6 8 10 Years Since 1990

15 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

16 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

17 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

18 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

19 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

20 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

21 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990

22 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990 b. Make a line of fit.

23 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990 b. Make a line of fit.

24 Median House Prices Price ($1000) 140 120 0 2 4 6 8 10 Years Since 1990 b. Make a line of fit.

25 c.Find a prediction equation for line of fit.

26 *Use the best two ordered pairs from b. to find the slope for the line!

27 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5)

28 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 x 2 - x 1

29 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 x 2 - x 1 8 – 4

30 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 x 2 - x 1 8 – 4 4

31 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4

32 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4

33 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4, y 1 = 130

34 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4, y 1 = 130, and m ≈ 5.63

35 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4, y 1 = 130, and m ≈ 5.63 y – y 1 = m(x – x 1 )

36 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4, y 1 = 130, and m ≈ 5.63 y – y 1 = m(x – x 1 )

37 c.Find a prediction equation for line of fit. *Use the best two ordered pairs from b. to find the slope for the line! (4, 130) and (8, 152.5) m = y 2 – y 1 = 152.2 – 130 = 22.5 ≈ 5.63 x 2 - x 1 8 – 4 4 *So use x 1 = 4, y 1 = 130, and m ≈ 5.63 y – y 1 = m(x – x 1 ) y – 130 = 5.63(x – 4) y – 130 = 5.63(x) – 5.63(4) y – 130 = 5.63x – 22.52 y = 5.63x + 107.48

38 d.Predict the price in 2020.

39 2020 means when x=30 (yrs after 1990)

40 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x!

41 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x! y = 5.63x + 107.48

42 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x! y = 5.63x + 107.48 y = 5.63(30) + 107.48

43 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x! y = 5.63x + 107.48 y = 5.63(30) + 107.48 y = 168.9 + 107.48

44 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x! y = 5.63x + 107.48 y = 5.63(30) + 107.48 y = 168.9 + 107.48 y = 276.38

45 d.Predict the price in 2020. 2020 means when x=30 (yrs after 1990) *Plug 30 in for x! y = 5.63x + 107.48 y = 5.63(30) + 107.48 y = 168.9 + 107.48 y = 276.38 So, in 2020 the price will be $276,380.

Download ppt "2.5 – Modeling Real World Data:. Using Scatter Plots."

Similar presentations

Objective - To graph linear equations using the slope and y-intercept.

Objective - To graph linear equations using the slope and y-intercept.
Parallel & Perpendicular Slopes II

Parallel & Perpendicular Slopes II
Topic: 1. Parallel & Perpendicular Lines 2. Scatter Plots & Trend Lines Name: Date: Period: Essential Question: Vocabulary: Parallel Lines are lines in.

Topic: 1. Parallel & Perpendicular Lines 2. Scatter Plots & Trend Lines Name: Date: Period: Essential Question: Vocabulary: Parallel Lines are lines in.
Objective The student will be able to: 1) write equations using slope-intercept form. 2) identify slope and y-intercept from an equation. 3) write equations.

Objective The student will be able to: 1) write equations using slope-intercept form. 2) identify slope and y-intercept from an equation. 3) write equations.
Scatter Plots Find the line of best fit.. 43210 In addition to level 3.0 and beyond what was taught in class, the student may:  Make connection with.

Scatter Plots Find the line of best fit In addition to level 3.0 and beyond what was taught in class, the student may:  Make connection with.
Graphing Using Slope - Intercept STEPS : 1. Equation must be in y = mx + b form 2. Plot your y – intercept ( 0, y ) 3. Using your y – intercept as a starting.

Graphing Using Slope - Intercept STEPS : 1. Equation must be in y = mx + b form 2. Plot your y – intercept ( 0, y ) 3. Using your y – intercept as a starting.
5-7: Scatter Plots & Lines of Best Fit. What is a scatter plot?  A graph in which two sets of data are plotted as ordered pairs  When looking at the.

5-7: Scatter Plots & Lines of Best Fit. What is a scatter plot?  A graph in which two sets of data are plotted as ordered pairs  When looking at the.
5.4 Point Slope Form.

5.4 Point Slope Form.
Week 3, Session Exploring Linear Fits

Week 3, Session Exploring Linear Fits
EXAMPLE 3 Approximate a best-fitting line Alternative-fueled Vehicles

EXAMPLE 3 Approximate a best-fitting line Alternative-fueled Vehicles
How do I find the equation of a line of best fit for a scatter plot? How do I find and interpret the correlation coefficient, r?

How do I find the equation of a line of best fit for a scatter plot? How do I find and interpret the correlation coefficient, r?
Objective: I can write linear equations that model real world data.

Objective: I can write linear equations that model real world data.
Section 2.5 Notes: Scatter Plots and Lines of Regression.

Section 2.5 Notes: Scatter Plots and Lines of Regression.
1. Graph 4x – 5y = -20 What is the x-intercept? What is the y-intercept? 2. Graph y = -3x + 2 3. Graph x = -4.

1. Graph 4x – 5y = -20 What is the x-intercept? What is the y-intercept? 2. Graph y = -3x Graph x = -4.
Section 2.5 – Linear Models. Essential Understanding Sometimes it is possible to model data from a real-world situation with a linear equation. You can.

Section 2.5 – Linear Models. Essential Understanding Sometimes it is possible to model data from a real-world situation with a linear equation. You can.
Modeling Real World Data: Scatter Plots. Key Topics Bivariate Data: data that contains two variables Scatter Plot: a set of bivariate data graphed as.

Modeling Real World Data: Scatter Plots. Key Topics Bivariate Data: data that contains two variables Scatter Plot: a set of bivariate data graphed as.
Write an equation to model data

Write an equation to model data
Write the equation of line in slope-intercept form with a slope of 2 and y-intercept of -5 Question 1A.

Write the equation of line in slope-intercept form with a slope of 2 and y-intercept of -5 Question 1A.
Analyzing Data using Line Graphs Slope & Equation of a Line.

Analyzing Data using Line Graphs Slope & Equation of a Line.
Regression Line I. Recap: Mean is _______________________________________________________________ Median is _____________________________________________________________.

Regression Line I. Recap: Mean is _______________________________________________________________ Median is _____________________________________________________________.

Similar presentations

Ads by Google