Presentation is loading. Please wait.

Presentation is loading. Please wait.

4 types of variation Direct Variation Use this when we read “varies directly” or “directly proportional.” The basic model is based on the equation: y.

Published byLeona Hines Modified over 8 years ago

Similar presentations

Presentation on theme: "4 types of variation Direct Variation Use this when we read “varies directly” or “directly proportional.” The basic model is based on the equation: y."— Presentation transcript:

1

2 4 types of variation

3 Direct Variation Use this when we read “varies directly” or “directly proportional.” The basic model is based on the equation: y = kx Where k is the constant of variation

4 Example of direct variation The simple interest on an investment is directly proportional to the amount of the investment. By investing $2500 in a certain bond, you obtained an interest payment of $87.50 after 1 year. Find a mathematical model that gives the interest I for this bond issue after 1 year in terms of the amount invested P.

5 Solution I = Prt(set up initial formula) 87.50 = 2500(r)1 (substitute values we know).035 = r(solve for the missing value) I = P(.035) or I =.035P Now go back to the original formula and substitute your finding. You just calculated the “k” value and created a linear model to calculate any interest earned given the principle.

6 Inverse Variation Use this when we read “varies inversely” or “inversely proportional.” The basic model is based on the equation: y = Where k is some constant.

7 Example of Inverse Variation A company has found that the daily demand y for its boxes of chocolates is inversely proportional to the price p. When the price is $5, the demand is 800 boxes. Approximate the demand when the price is increased to $6.

8 Solution Because this varies inversely, we start with the equation y =. Adding the information we know: 800 = k = 4000 Applying that k-value: y = y = 666

9 Varies Jointly The work W (in joules) done when lifting an object varies jointly with the mass m (in Kg) of the object and the height h (in meters)that the object is lifted. The work done when a 120-Kg object is lifted 1.8 meters is 2116.8 joules. How much work is done when lifting a 100-Kg object 1.5 meters?

10 W = mhk 2116.8 = 120(1.8)k 2116.8 = 216k K = 9.8 Apply the k-value W = 100(1.5)(9.8) = 1470 joules

11 One more The diameter of the largest particle that can be moved by a stream varies directly as the square of the velocity of the stream. The velocity of a stream moving.25 mph can move a particle.02 inches in diameter. What velocity is required to carry particles.12 inches in diameter?

12 Solution y = kx 2.02 = k(.25) 2.02 =.0625k k =.32 Apply the k-value.12 =.32x 2.375 = x 2 x =.612 mph

Download ppt "4 types of variation Direct Variation Use this when we read “varies directly” or “directly proportional.” The basic model is based on the equation: y."

Similar presentations

Direct Variation Certain formulas occur so frequently in applied situations that they are given special names. Variation formulas show how one quantity.

Direct Variation Certain formulas occur so frequently in applied situations that they are given special names. Variation formulas show how one quantity.
Chapter 5 Section 1 variation.

Chapter 5 Section 1 variation.
3.4-1 Variation. Many natural (physical) phenomena exhibit variation = one quantity (quantities) changing on account of another (or several) Principle.

3.4-1 Variation. Many natural (physical) phenomena exhibit variation = one quantity (quantities) changing on account of another (or several) Principle.
6.8 Solving (Rearranging) Formulas & Types of Variation  Rearranging formulas containing rational expressions  Variation Variation Inverse Joint Combined.

6.8 Solving (Rearranging) Formulas & Types of Variation  Rearranging formulas containing rational expressions  Variation Variation Inverse Joint Combined.
Modeling Functions Using Variation Section 3.6. Direct Variation Let x and y represent two quantities. The following are equivalent statements: y = kx,

Modeling Functions Using Variation Section 3.6. Direct Variation Let x and y represent two quantities. The following are equivalent statements: y = kx,
Section 3.6 Variation. Direct Variation If a situation gives rise to a linear function f(x) = kx, or y = kx, where k is a positive constant, we say.

Section 3.6 Variation. Direct Variation If a situation gives rise to a linear function f(x) = kx, or y = kx, where k is a positive constant, we say.
Variation Variation describes the relationship between two or more variables. Two variables, x and y, can vary directly or inversely. Three or more variables.

Variation Variation describes the relationship between two or more variables. Two variables, x and y, can vary directly or inversely. Three or more variables.
EXAMPLE 5 Write a joint variation equation The variable z varies jointly with x and y. Also, z = –75 when x = 3 and y = –5. Write an equation that relates.

EXAMPLE 5 Write a joint variation equation The variable z varies jointly with x and y. Also, z = –75 when x = 3 and y = –5. Write an equation that relates.
Direct Variation: y varies directly as x (y is directly proportional to x), if there is a nonzero constant k such th at 3.7 – Variation The number k is.

Direct Variation: y varies directly as x (y is directly proportional to x), if there is a nonzero constant k such th at 3.7 – Variation The number k is.
Warm Up #4.

Warm Up #4.
Variation and Proportion Indirect Proportion. The formula for indirect variation can be written as y=k/x where k is called the constant of variation.

Variation and Proportion Indirect Proportion. The formula for indirect variation can be written as y=k/x where k is called the constant of variation.
Direct and Inverse Variation

Direct and Inverse Variation
Direct Variation.

Direct Variation.
ObjectivesExamples DefinitionActivity Prepared by: Michael Lacsina Val de Guzman.

ObjectivesExamples DefinitionActivity Prepared by: Michael Lacsina Val de Guzman.
Direct and Inverse Variation

Direct and Inverse Variation
Copyright © Cengage Learning. All rights reserved. Graphs; Equations of Lines; Functions; Variation 3.

Copyright © Cengage Learning. All rights reserved. Graphs; Equations of Lines; Functions; Variation 3.
3.6 - 1 10 TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.

TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.
Variation Chapter 9.1. Direct Variation As x increases/decreases, y increases/decreases too. y = kx k is called the Constant of Variation k ≠ 0 “y varies.

Variation Chapter 9.1. Direct Variation As x increases/decreases, y increases/decreases too. y = kx k is called the Constant of Variation k ≠ 0 “y varies.
Mathematical Modeling & Variation MATH 109 - Precalculus S. Rook.

Mathematical Modeling & Variation MATH Precalculus S. Rook.
Section 6.5.1 – Ratio, Proportion, Variation The Vocabulary.

Section – Ratio, Proportion, Variation The Vocabulary.

Similar presentations

Ads by Google