Relations and Functions Equations and Graphs Domain and Range.

Slides:

Advertisements

Similar presentations

3-5 Lines in the coordinate plane M11. B

Advertisements

Graphs of Radical Functions

3.5 Lines in the Coordinate Plane

2.5 Linear Equations. Graphing using table Graphing using slope and y-intercept (section 2.4) Graphing using x-intercept and y-intercept (section 2.5)

Warm-Up Graph. Then find the slope. 5 minutes 1)y = 3x + 2 2) y = -2x +5.

Do Now Find the slope of the line passing through the given points. 1)( 3, – 2) and (4, 5) 2)(2, – 7) and (– 1, 4)

Writing equations in slope intercept form

11.6 The Slope Intercept Form

Equations of Lines. Three forms of a line y = mx + bslope-intercept y-y 1 = m(x – x 1 )point-slope Ax + By = Cstandard form.

2.6 – Vertical and Horizontal Translations

Lesson 1-2 Slopes of Lines. Objective: To find the slope of a line and to determine whether two lines are parallel, perpendicular, or neither.

Writing Linear Equation using slope-intercept form.

Write an equation given the slope and y-intercept EXAMPLE 1 Write an equation of the line shown.

Section P.5 Linear Equations in Two Variables 1.Slope: can either be a ratio or a rate if the x and y axis have the same units of measures then the slope.

12.2 Functions and Graphs F(X) = x+4 where the domain is {-2,-1,0,1,2,3}

Parallel and Perpendicular Lines Chap 4 Supplemental Lecture.

Writing the Equation of a Line

Slope-Intercept Form of a Line

5.1 Stretching/Reflecting Quadratic Relations

Slopes and Parallel Lines Goals: To find slopes of lines To identify parallel lines To write equations of parallel lines.

Linear Models & Rates of Change (Precalculus Review 2) September 9th, 2015.

Section 2.2 Functions  Functions & Graphs  Function Notation & Equations  Applications: Interpolation & Extrapolation 12.2.

1.3 Families of Equations. What families of graphs have your studied? Linear Absolute Value Quadratic Square Root Cubic Cube Root.

2.4 – Writing Linear Equations. 2.4 – Writing Linear Equations Forms:

WRITE EQUATIONS OF PARALLEL AND PERPENDICULAR LINES November 20, 2008 Pages

For the line that passes through points (-4, 3) and (-2, 4).

Find the x and y-intercepts from the graph. Find the intercepts and state domain and range.

Slope of a Line Chapter 7.3. Slope of a Line m = y 2 – y 1 x 2 – x 1 m = rise run m = change in y change in x Given two points (x 1, y 1 ) and (x 2, y.

 1.  2..27v-1.6=.32v-2. Slope-Intercept Form y = mx + b m = slope b = y-intercept Slope-Intercept Form y = mx + b m = slope b = y-intercept.

Day 6 Pre Calculus. Objectives Review Parent Functions and their key characteristics Identify shifts of parent functions and graph Write the equation.

LEARNING TARGETS: 1. TO IDENTIFY SLOPE FROM A TABLE OF VALUES. 2. TO IDENTIFY SLOPE FROM A GRAPH. 3. TO IDENTIFY SLOPE FROM 2 POINTS. 4. TO IDENTIFY SLOPE.

Relations and Functions Equations and Graphs Domain and Range.

6.5 Point – Slope Form. Quick Review 1. What is the Slope-Intercept Form? y = mx + b 2. What is the Standard Form? Ax + By = C 3. How does an equation.

2.2 Linear Equations Graph linear equations, identify slope of a linear equation, write linear equations.

Big Idea : -Solve systems of linear equations by graphs.

Notes A7 Review of Linear Functions. Linear Functions Slope – Ex. Given the points (-4, 7) and (-2, -5) find the slope. Rate of Change m.

1 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt FunctionsSlopeGraphs.

Point slope form of an equation Y - y₁ = m(X- x₁) (x₁, y₁) An ordered pair on the line m slope.

Point slope form of an equation Y - y₁ = m(X- x₁) (x₁, y₁) An ordered pair on the line m slope.

4.3 – Writing Equations in Point Slope Form. Ex. 1 Write the point-slope form of an equation for a line that passes through (-1,5) with slope -3.

6.4 Point-Slope Form and Writing Linear Equations Point-Slope Form of a Linear Equation –The point-slope form of the equation of a non- vertical line that.

Domain x Range y Domain x Range y Domain x Range y n n n1234n n n0123n n + 5 PW page 14 questions.

Section 6.6 Parallel and Perpendicular Lines. Definitions Lines that lie in the same plane and never intersect are called parallel lines. All vertical.

2.2: Linear Equations Our greatest glory is not in never falling, but in getting up every time we do.

2.2: Linear Equations. Graphing Linear Equations y is called the dependent variable because the value of y depends on x x is called the independent variable.

Square Root Function Graphs Do You remember the parent function? D: [0, ∞) R: [0, ∞) What causes the square root graph to transform? a > 1 stretches vertically,

Objective- To graph and manipulate equations in standard form. Standard FormSlope-Intercept Form Ax + By = C y = mx + b 3x + 2y = 8 - 3x 2y = - 3x + 8.

Chapter 2 Review Equations of Lines

Chapter 1: Linear and Quadratic functions By Chris Muffi.

Slopes of Parallel and Perpendicular Lines. Different Forms of a Linear Equation  Standard Form  Slope-Intercept Form  Point-Slope Form  Standard.

11.4 Inverse Relations and Functions OBJ:  Find the inverse of a relation  Draw the graph of a function and its inverse  Determine whether the inverse.

Chapter 6 Lesson 2 Slope-Intercept Form. Define: Slope-Intercept Form Define: Slope-Intercept Form The slope-intercept form of a linear equation is y.

5.3 Slope-intercept form Identify slope and y-intercept of the graph & graph an equation in slope- intercept form. day 2.

College Algebra Chapter 2 Functions and Graphs Section 2.4 Linear Equations in Two Variables and Linear Functions.

What do you know about linear equations? Do you think linear equations are functions? Write it down on your board Share with your shoulder partner Graphing.

Algebra 1 Section 5.6 Write linear equations in standard form Recall: Forms of linear equations Standard Slope-intercept Point-slope Graph 4x – 3y = 6.

P.2 Linear Models & Rates of Change 1.Find the slope of a line passing thru 2 points. 2.Write the equation of a line with a given point and slope. 3.Interpret.

Section 2.2 – Linear Equations Def: Linear Equation – an equation that can be written as y = mx + b m = slope b = y-intercept.

1. Write the equation in standard form.

Slope-Intercept and Standard Form of a Linear Equation.

Function Transformations

Graph Square Root and Cube Root Functions

3-5 & 3-6 Lines in the Coordinate Plane & Slopes of Parallel and Perpendicular Lines.

Parent Functions.

Parent Functions.

Drawing Graphs The parabola x Example y

1: Slope from Equations Y = 8x – 4 B) y = 6 – 7x

PARENT GRAPH TOOLKIT Name: Lines x y x y x y

Presentation transcript:

Relations and Functions Equations and Graphs Domain and Range

Lines Ax + By = C Standard Form y = mx + b Slope-Intercept Form 9) 5x – 2 y = 10(Standard Form) 5x – 2 y = 10 -2y = -5x + 10 y = 5/2 x – 5 (Slope-Intercept Form) y x

Lines Ax + By = C Standard Form y = mx + b Slope-Intercept Form 9) 5x – 2 y = 10(Standard Form) 5x – 2 y = 10 -2y = -5x + 10 y = 5/2 x – 5 (Slope-Intercept Form) y x

Slope Four Types of Slopes Positive, Negative, No Slope, 0 Slope Slants up L to R Vertical Horizontal 1)y = 2x – 1 2) 2x – 1 = 5 6) y – 2 = 7 D:D:D: Ʀ{3}Ʀ R:R:R: ƦƦ{9} F ?F ?F ? YesNoYes y x y x 5 5 y x 5 5 y x 5 5

Slope Four Types of Slopes Positive, Negative, No Slope, 0 Slope Slants up L to R Vertical Horizontal 1)y = 2x – 1 2) 2x – 1 = 5 6) y – 2 = 7 D:D:D: Ʀ{3}Ʀ R:R:R: ƦƦ{9} F ?F ?F ? YesNoYes y x y x 5 5 y x 5 5 y x 5 5

Parabola 3) y = x 2 D: 7) x = y 2 D: 11) y = x 2 – 4 D: x | y x | y x | y (-1, )R: (1, ) R: (-1, ) R: (0, ) (0, ) (0, ) (1, )F ? (1, ) F ? (1, ) F? y x y x 5 5 y x 5 5

Parabola 3) y = x 2 D: 7) x = y 2 D: 11) y = x 2 – 4 D: x | y Ʀ x | y [0, ∞) x | y Ʀ (-1, 1)R: (1, -1) R: (-1, -3) R: (0, 0) [0, ∞) (0, 0 ) Ʀ (0, -4) [-4, ∞) (1, 1)F ? (1, 1 ) F ? (1, -3) F? Yes No Yes y x y x 5 5 y x 5 5

Parabola 3) y = x 2 D: 7) x = y 2 D: 11) y = x 2 – 4 D: x | y Ʀ x | y [0, ∞) x | y Ʀ (-1, 1)R: (1, -1) R: (-1, -3) R: (0, 0) [0, ∞) (0, 0 ) Ʀ (0, -4) [-4, ∞) (1, 1)F ? (1, 1 ) F ? (1, -3) F? Yes No Yes y x y x 5 5 y x 5 5

Square Root 4) y = √ x x | yD: (0, 0)[0, ∞) (1, 1)R: (4, 2)[0, ∞) F ? Yes y x

Square Root 4) y = √ x x | yD: (0, 0)[0, ∞) (1, 1)R: (4, 2)[0, ∞) F ? Yes y x

Absolute Value 5) y = |x| D: 8) x = |y| D: 10) y=|x|+6 D: x | y x | y x | y (-1, )R: (, -1) R: (-1, ) R: (0, ) (, 0 ) (0, ) (1, )F ? (, 1 ) F ? (1, ) F? y x y x 5 5 y x 5 5

Absolute Value 5) y = |x| D: 8) x = |y| D: 10) y=|x|+6 D: x | y Ʀ x | y [0, ∞) x | y Ʀ (-1, 1)R: (1, -1) R: (-1, 7) R: (0, 0) [0, ∞) (0, 0 ) Ʀ (0, 6) [6, ∞) (1, 1)F ? (1, 1 ) F ? (1, 7) F? Yes No Yes y x y x 5 5 y x 5 5

Absolute Value 5) y = |x| D: 8) x = |y| D: 10) y=|x|+6 D: x | y Ʀ x | y [0, ∞) x | y Ʀ (-1, 1)R: (1, -1) R: (-1, 7) R: (0, 0) [0, ∞) (0, 0 ) Ʀ (0, 6) [6, ∞) (1, 1)F ? (1, 1 ) F ? (1, 7) F? Yes No Yes y x y x 5 5 y x 5 5