Presentation is loading. Please wait.

Presentation is loading. Please wait.

Everything You Always Wanted to Know About Math* * But were afraid to ask.

Published byNatalie Douglas Modified over 11 years ago

Similar presentations

Presentation on theme: "Everything You Always Wanted to Know About Math* * But were afraid to ask."— Presentation transcript:

1

2 Everything You Always Wanted to Know About Math* * But were afraid to ask.

3 Outline 1.Graphs and Equations 2.Depicting and Solving Systems of Equations 3.Levels, Changes and Percentage Change 4.Non-linear relationships and Elasticities

4

5 Depicting 2-dimensional relationships 1.Depicting the association between pairs of variables using a Cartesian Plane. 2.Depicting Bivariate (2-variable) functions.

6 0 1 1 34285 67 2 3 4 5 6 7 8 The Cartesian Plane y x

7 0 1 1 34285 67 2 3 4 5 6 7 8 (1,1) (2,6) (5,5) (7,2) Points in a Cartesian Plane

8 Equation for a straight-line function y = mx + b Dependent Variable Independent Variable SlopeIntercept Examples:SlopeIntercept y = x 1 0 y = 3 + 0.25 x 0.25 3 y = 6 – 2 x - 2 6

9 0 1 1 34285 67 2 3 4 5 6 7 8 run ( = 2) rise ( = 1) Slope = rise / run (In this case = 1/2)

10 0 1 1 34285 67 2 3 4 5 6 7 8 y x Plotting the Function y = x

11 0 1 1 34285 67 2 3 4 5 6 7 8 Plotting the Function y = 2x

12 0 1 1 34285 67 2 3 4 5 6 7 8 y x Plotting the Function y = 3+0.25x

13 0 1 1 34285 67 2 3 4 5 6 7 8 Plotting the Function y = 6 - 2x

14 0 1 1 34285 67 2 3 4 5 6 7 8 Plotting the Function x = 4

15 0 1 1 34285 67 2 3 4 5 6 7 8 Shifting Lines: Changing the Intercept y = 8 – 2x y = 6 – 2x y = 4 – 2x

16

17 Solving Systems of Equations y = 6 - 2x y = 3 + x 1. Solve out for y 6 - 2x = 3 + x 2. Isolate x so 3 = 3x so x = 1 3. Solve for y using either equation: y = 6-2 = 3+1 = 4

18 0 1 1 34285 67 2 3 4 5 6 7 8 Solving Systems of Equation y = 6 - 2x & y = 3 + x Solution: (1,4)

19 0 1 1 34285 67 2 3 4 5 6 7 8 Equilibriums with Different Intercepts: Demand Shift P = 8 – 2Q P = 4 – 2Q P = 6 – 2Q 8-2Q = 3+Q P = 3 + Q Q = 5/3 P = 14/3 6-2Q = 3+Q 4-2Q = 3+Q Q = 1 P = 4 Q = 1/3 P = 10/3

20 0 1 1 34285 67 2 3 4 5 6 7 8 Equilibriums with Different Intercepts: Supply Shift P = 6 – 2Q 6 – 2Q = 5+Q P = 3 + Q Q = 1/3 P = 16/3 6 – 2Q = 3+Q 6 – 2Q = Q Q = 1 P = 4 Q = 2 P = 2 P = 5 + Q P = Q

21

22 Levels, Changes, and Percentage Changes LevelChange Percentage Change x t x t = x t – x t-1 % x t = 100[(x t – x t-1 ) / x t-1 ] 100 1202020% 1402016.67% Formula for Percentage Change % x t = 100[(x t – x t-1 ) / x t-1 ] = 100[(x t / x t-1 ) - 1]

23 Some General Rules For z = xy, with small percentage changes % z % x + % y For z = y/x, with small percentage changes % z % y - % x

24 Examples x t = 10 x t+1 = 11 % x t = 10% y t = 20 y t+1 = 24 % y t = 20% z = xyz t = 200 z t+1 = 264 % z t = 100([264/200]-1) = 32 % z = y/xz t = 2 z t+1 = 2.18182 % z t = 100([2.18182 /2]-1) = 9.091 %

25

26 Non-Linear Relationships May want to associate percentage change with percentage change, rather than change with change. y = 2x + 3 => y = 2 x, but not % y = 2% x One function that relates % y to a constant % x takes the form y = bx a Where a & b are constant parameters

27 Rules of Exponents x 0 = 1 x 1 = x x -1 = 1 / x (x a ) b = (x b ) a = x ab x a x b = x a+b x a / x b = x a – b x a y a = (xy) a x a / y a = (x/y) a x 1/a = a x 2 0 = 1 2 1 = 2 2 -1 = 1 / 2 (2 1 ) 3 = (2 3 ) 1 = 8 2 2 2 3 = 2 5 = 32 2 3 / 2 2 = 2 1 = 2 2 2 3 2 = 6 2 = 36 4 2 / 2 2 = (4/2) 2 = 4 9 1/2 = 9 = 3 Rule Example

28 0 1 1 34285 67 2 3 4 5 6 7 8 Plotting y = 8 / x

29 0 1 1 34285 67 2 3 4 5 6 7 8 A Tangent Line to a Hyperbola Shows the Slope at a Point Tangent line at x = 1.5 Slope = - 3.56 Tangent line at x = 5.5 Slope = - 0.26

30 Elasticities An elasticity relates the percent change in one variable to the percent change in another variable; Elasticity between x & y = % y / % x = ( y / y) / ( x / x ) = ( y / x) (x / y )

31 0 1 1 34285 67 2 3 4 5 6 7 8 Constant Elasticities with a Hyperbola y/y / x/x = ( y/ x)(x/y) = slope (x/y) = -3.56 (1.5/5.33) = - 1 y/y / x/x = ( y/ x)(x/y) = slope (x/y) = -0.26 (5.33/1.5) = - 1

32

33 1.In a Cartesian plane, plot the following points: (0,5), (4,2), (6,1), (3,3) 2.Graph the following linear equations 1.y = 2x + 3 2.y = 21 – 4x 3.Solve the system of two equations given by the equations in question (2) above. Also solve the system for the case where equation 2.1 changes to y = 15 – 4x and show how this change in equation 2.1 is represented in a graph. 4.Graph the equation y = x 0.5. Calculate the percentage change in the dependent variable between the points where x=4 and x=4.41. Determine the elasticity between these two points.

Download ppt "Everything You Always Wanted to Know About Math* * But were afraid to ask."

Similar presentations

Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Introduction to Graphing The Rectangular Coordinate System Scatterplots.

Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Introduction to Graphing The Rectangular Coordinate System Scatterplots.
Warm up Write the equation of the line passing through the given point with the given slope. Then graph the line. 1. (-4, -3), m = 2. (8, 2), m =

Warm up Write the equation of the line passing through the given point with the given slope. Then graph the line. 1. (-4, -3), m = 2. (8, 2), m =
System of linear Equation

System of linear Equation
Section 3-5 Lines in the Coordinate Plane SPI 21C: apply concept of rate of change to solve real-world problems SPI 21D:

Section 3-5 Lines in the Coordinate Plane SPI 21C: apply concept of rate of change to solve real-world problems SPI 21D:
Relations Math 314 Time Frame Slope Point Slope Parameters Word Problems.

Relations Math 314 Time Frame Slope Point Slope Parameters Word Problems.
Section 1.8 Homework questions?. Section Concepts 1.8 Linear Equations in Two Variables Slide 2 Copyright (c) The McGraw-Hill Companies, Inc. Permission.

Section 1.8 Homework questions?. Section Concepts 1.8 Linear Equations in Two Variables Slide 2 Copyright (c) The McGraw-Hill Companies, Inc. Permission.
Warm-Up 5 minutes Write each equation in slope-intercept form.

Warm-Up 5 minutes Write each equation in slope-intercept form.
Equations in Two variables

Equations in Two variables
Writing an Equation of a Line

Writing an Equation of a Line
FACTORING ax2 + bx + c Think “unfoil” Work down, Show all steps.

FACTORING ax2 + bx + c Think “unfoil” Work down, Show all steps.
Chapter 4 Systems of Linear Equations; Matrices

Chapter 4 Systems of Linear Equations; Matrices
1.3 Linear Functions.

1.3 Linear Functions.
2.4 Writing the Equation of a Line

2.4 Writing the Equation of a Line
Equations of Lines Equations of Lines

Equations of Lines Equations of Lines
Constant, Linear and Non-Linear Constant, Linear and Non-Linear

Constant, Linear and Non-Linear Constant, Linear and Non-Linear
Factor P 16 8(8-5ab) 4(d² + 4) 3rs(2r – s) 15cd(1 + 2cd) 8(4a² + 3b²)

Factor P 16 8(8-5ab) 4(d² + 4) 3rs(2r – s) 15cd(1 + 2cd) 8(4a² + 3b²)
Identifying a Linear Equation from a Table of Values

Identifying a Linear Equation from a Table of Values
Points on a Line Topic 4.2.1.

Points on a Line Topic
Warm Up… Solve each equation for y.

Warm Up… Solve each equation for y.
Linear Equations Unit.  Lines contain an infinite number of points.  These points are solutions to the equations that represent the lines.  To find.

Linear Equations Unit.  Lines contain an infinite number of points.  These points are solutions to the equations that represent the lines.  To find.

Similar presentations

Ads by Google