Presentation is loading. Please wait.

Presentation is loading. Please wait.

Linear Equations and Slope Created by Laura Ralston.

Published byDustin May Modified over 9 years ago

Similar presentations

Presentation on theme: "Linear Equations and Slope Created by Laura Ralston."— Presentation transcript:

1 Linear Equations and Slope Created by Laura Ralston

2 b http://www.youtube.com/watch? v=J_U93-l5Z-w http://www.youtube.com/watch? v=J_U93-l5Z-w http://www.youtube.com/watch? v=J_U93-l5Z-w

3 Slope in Real Life Grade for Roads Pitch of Building Roofs

4 Slope b a useful measure of the “steepness” or “tilt” of a line b compares the vertical change (the rise) to the horizontal change (the run) when moving from one point to another along the line b typically represented by “m” because it is the first letter of the French verb, monter

5 Formula and Graph http://www.youtube.com/watch?v=xBdo- D1RiNs

6 Four Possibilities of Slope b Positive Slope m > 0 m > 0 b Line “rises” from left to right b Negative Slope m < 0 b Line “falls” from left to right

7 Four Possibilities of Slope b Zero Slope m = 0 m = 0 b Line is horizontal (constant) b Undefined Slope m is undefined (0 in denominator of ratio) b Line is vertical and is NOT a function b Do not say “NO slope”

8 Linear functions can take on many forms a) Point Slope Form b) Slope Intercept Form c) General (Standard) Form

9 SLOPE INTERCEPT FORM b Most useful graphing form  To convert from standard to slope intercept, given equation must be solved for y.  To graph, Identify y-intercept (b) and slope (m) Plot y-intercept (this is now your start point) Use rise/run concept to locate other points Draw line through points

10 y = mx + b Where m = slope of the line and b = y-intercept Examples Examples

11 POINT-SLOPE FORM b Most useful symbolic form b “Write the equation of the line that meet the following conditions…” b To convert from point-slope to slope intercept, distribute “m” and collect like terms.

12 y = m(x - x 1 ) + y 1 Where m = slope of the line and (x 1, y 1 ) is any point on the line Examples Examples

13 SPECIAL LINEAR RELATIONSHIPS b PARALLEL : Two or more lines that run side by side never intersectingnever intersecting always same distance apartalways same distance apart each line has the same slopeeach line has the same slope m 1 = m 2m 1 = m 2

14 b PERPENDICULAR : Two lines that intersect to form 4 right angles Called “negative reciprocals of each other” (flip and change sign)Called “negative reciprocals of each other” (flip and change sign) Product of the slopes is equal to -1Product of the slopes is equal to -1 m 1 m 2 = -1

Download ppt "Linear Equations and Slope Created by Laura Ralston."

Similar presentations

1.4 Linear Equations in Two Variables

1.4 Linear Equations in Two Variables
3.7 Equations of Lines in the Coordinate Plane

3.7 Equations of Lines in the Coordinate Plane
Linear Functions.

Linear Functions.
§ 2.4 The Slope of a Line.

§ 2.4 The Slope of a Line.
Chapter 1. Graphs, Functions, & Models

Chapter 1. Graphs, Functions, & Models
Parallel & Perpendicular Lines

Parallel & Perpendicular Lines
Slope and Rate of Change Equations of Lines

Slope and Rate of Change Equations of Lines
Agenda Lesson 5-5 – Parallel and Perpendicular Lines Standards 7.0 Derive linear equations by using the point-slope formula 8.0 Understand the concept.

Agenda Lesson 5-5 – Parallel and Perpendicular Lines Standards 7.0 Derive linear equations by using the point-slope formula 8.0 Understand the concept.
1.4 Lines Essential Question: How can you use the equations of two non-vertical lines to tell whether the lines are parallel or perpendicular?

1.4 Lines Essential Question: How can you use the equations of two non-vertical lines to tell whether the lines are parallel or perpendicular?
Compound Inequalities A compound Inequality is when you have your variable is compared to two different values. There are two ways that you will see compound.

Compound Inequalities A compound Inequality is when you have your variable is compared to two different values. There are two ways that you will see compound.
Linear Functions.

Linear Functions.
4.1 Introduction to Linear Equations in Two Variables

4.1 Introduction to Linear Equations in Two Variables
Slope-Intercept and Point-Slope Forms of a Linear Equation

Slope-Intercept and Point-Slope Forms of a Linear Equation
Slope and Linear Equations

Slope and Linear Equations
Equations of lines.

Equations of lines.
1.2 Linear Equations in Two Variables

1.2 Linear Equations in Two Variables
It’s What’s Going On!. Recall y = mx + b is the equation of a line m is the value of the slope of a line (rise over run) b is the y-intercept m = 1 __.

It’s What’s Going On!. Recall y = mx + b is the equation of a line m is the value of the slope of a line (rise over run) b is the y-intercept m = 1 __.
Graphing Linear Equations

Graphing Linear Equations
3.3 Slope.

3.3 Slope.
Review of lines Section 2-A. Slope (m) of a line Let P 1 (x 1, y 1 ) and P 2 (x 2, y 2 ) be points on a nonvertical line, L. The slope of L is.

Review of lines Section 2-A. Slope (m) of a line Let P 1 (x 1, y 1 ) and P 2 (x 2, y 2 ) be points on a nonvertical line, L. The slope of L is.

Similar presentations

Ads by Google