Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unit 2 Linear Equations and Functions. Unit Essential Question:  What are the different ways we can graph a linear equation?

Published bySophia Wilkins Modified over 8 years ago

Similar presentations

Presentation on theme: "Unit 2 Linear Equations and Functions. Unit Essential Question:  What are the different ways we can graph a linear equation?"— Presentation transcript:

1 Unit 2 Linear Equations and Functions

2 Unit Essential Question:  What are the different ways we can graph a linear equation?

3 Lessons 2.1-2.3 Functions, Slope, and Graphing Lines

4 What is a function?  Domain  Range

5 Rate of Change = Slope

6 Graphing Linear Equations  Slope Intercept Form  Standard Form  Horizontal  Vertical

7 Homework:  Have a good weekend!

8 Bell Work:

9 Lesson 2.4 – 2.6 Parallel/Perpendicular Lines, Standard Form, and Direct Variation

10 Parallel Lines  Lines that never intersect. If two lines never intersect, then they must have the same… SLOPE!!!!!!  The lines y = 3x + 10 and y = 3x – 2 are parallel!!!

11 Perpendicular Lines  Intersecting lines that form 90 degree angles. Perpendicular lines have the opposite-reciprocal slope.  The lines y = 3x + 4 and y = -1/3x – 8 are perpendicular.

12 Standard Form  Ax + By = C, where A, B, and C are integers (not fractions or decimals).  To graph a linear equation in standard form, find the x and y intercepts.  X-intercept: this is when y = 0, so simply plug 0 in for y, and solve for x.  Y-intercept: this is when x = 0, so simply plug 0 in for x, and solve for y.

13 Direct Variation  In the form y = kx, where k is the constant of variation.  To find an equation in direct variation form, you use a given point to find k.  Example: If y varies directly with x, and when x = 12, y = -6, write and graph a direct variation equation.

14 Homework:  Page 102 #’s 20 – 25, 40 – 45  Page 109 #’s 3 – 29 odds

15 Bell Work:  1) Write the equation of a line in standard form that passes through the point (6,-2) and is perpendicular to the line y = -3x + 4.  2) If y varies directly with x, and when x = 10, y = -30, write and graph a direct variation equation.

16 Lesson 2.7 Absolute Value Functions

17 Lesson Essential Question:  How do we graph an absolute value function, and how can we predict translations based upon its equation?

18 Example:

19 Examples:

20 Examples with Transformations:

21 Homework:  Page 127 #’s 3 – 20

22 Bell Work:

23 Stretching/Shrinking  When the absolute value function is multiplied by a number other than 1, it causes the parent function to:  Stretch if the number is greater than 1.  Shrink if the number is between 0 and 1.

24 Transformations:  This is when a basic parent function is translated, reflected, stretched or shrunk.  Translation: when it is shifted left, right, up, or down.  Reflection: when it is reflected across the focal point. (multiplied by a negative)  Stretched: when it is vertically pulled (multiplied by a # > 1).  Shrunk: when it is vertically smushed (multiplied by a # between 0 and 1.

25 Examples:

26 Homework:  Page 127 #’s 3 – 20

27 Bell Work:

Download ppt "Unit 2 Linear Equations and Functions. Unit Essential Question:  What are the different ways we can graph a linear equation?"

Similar presentations

1.4 – Shifting, Reflecting, and Stretching Graphs

1.4 – Shifting, Reflecting, and Stretching Graphs
4-7B Perpendicular Lines Algebra 1 Glencoe McGraw-HillLinda Stamper.

4-7B Perpendicular Lines Algebra 1 Glencoe McGraw-HillLinda Stamper.
Lesson 6.5 Parallel and Perpendicular Lines

Lesson 6.5 Parallel and Perpendicular Lines
~ Chapter 6 ~ Algebra I Algebra I Solving Equations

~ Chapter 6 ~ Algebra I Algebra I Solving Equations
Warm-Up On the same coordinate plane… ▫Graph the equation y=2x +3 ▫Graph the equation y=2x ▫Graph the equation y= - ½x + 1 What do you notice about the.

Warm-Up On the same coordinate plane… ▫Graph the equation y=2x +3 ▫Graph the equation y=2x ▫Graph the equation y= - ½x + 1 What do you notice about the.
2.4.2 – Parallel, Perpendicular Lines

2.4.2 – Parallel, Perpendicular Lines
Bellwork Partner Activity for graphing.

Bellwork Partner Activity for graphing.
Writing Linear Equation in Standard Form

Writing Linear Equation in Standard Form
3.5 Lines in the Coordinate Plane

3.5 Lines in the Coordinate Plane
Slope-Intercept and Point-Slope Forms of a Linear Equation

Slope-Intercept and Point-Slope Forms of a Linear Equation
Lesson 5-5 Standard Form Sept. 24, 2014. Daily Learning Target I will write and graph equations in standard form.

Lesson 5-5 Standard Form Sept. 24, Daily Learning Target I will write and graph equations in standard form.
Determine the domain and range of the following relations, and indicate whether it is a function or not. If not, explain why it is not. {(1, -4), (3, 6),

Determine the domain and range of the following relations, and indicate whether it is a function or not. If not, explain why it is not. {(1, -4), (3, 6),
Equations of lines.

Equations of lines.
Unit 1 Review.

Unit 1 Review.
Transforming reciprocal functions. DO NOW Assignment #59  Pg. 503, #11-17 odd.

Transforming reciprocal functions. DO NOW Assignment #59  Pg. 503, #11-17 odd.
Create a table and Graph:. Reflect: Continued x-intercept: y-intercept: Asymptotes: xy -31/3 -21/2 1 -1/22 xy 1/2-2 1 2-1/2 3-1/3.

Create a table and Graph:. Reflect: Continued x-intercept: y-intercept: Asymptotes: xy -31/3 -21/2 1 -1/22 xy 1/ /2 3-1/3.
Rates of Change (Slope)

Rates of Change (Slope)
Bell Ringer Write an equation in slope – intercept form that is parallel to the line 5

Bell Ringer Write an equation in slope – intercept form that is parallel to the line 5

Relations and Functions Linear Equations Vocabulary: Relation Domain Range Function Function Notation Evaluating Functions No fractions! No decimals!

Relations and Functions Linear Equations Vocabulary: Relation Domain Range Function Function Notation Evaluating Functions No fractions! No decimals!

Similar presentations

Ads by Google