Download Operations on Rational Expressions

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
Document related concepts

Location arithmetic wikipedia , lookup

Elementary mathematics wikipedia , lookup

Transcript 
Digital Lesson
Operations on Rational
Expressions
Rational expressions are fractions in which the
numerator and denominator are polynomials and the
denominator does not equal zero.
2
x

9
Example: Simplify
.
x 3
( x  3)( x  3)

x 3
( x  3)( x  3) , x – 3  0

( x  3)
 ( x  3) , x  3
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
2
To multiply rational expressions:
1. Factor the numerator and denominator of each
fraction.
2. Multiply the numerators and denominators of
each fraction.
3. Divide by the common factors.
4. Write the answer in simplest form.
a c ac
•

b d bd
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
3
2
x
 3x
Example: Multiply
x2  2x  3
x( x  3)

( x  3)( x  1)
•
( x  1)( x  2)
( x  3)( x  1)
x( x  3)( x  1)( x  2)

( x  3)( x  1)( x  3)( x  1)
x( x  3)( x  1)( x  2)

( x  3)( x  1)( x  3)( x  1)
x( x  2)

( x  1)( x  3)
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
•
x2  x  2 .
x2  2x  3
Factor the numerator and
denominator of each fraction.
Multiply.
Divide by the common factors.
Write the answer in simplest
form.
4
To divide rational expressions:
1. Multiply the dividend by the reciprocal of the
a
b
divisor. The reciprocal of
is .
b
a
2. Multiply the numerators. Then multiply the
denominators.
3. Divide by the common factors.
4. Write the answer in simplest form.
a c a • d ad
 

b d b c bc
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
5
2
2
x

x
y
2
x

2
x
y.
Example: Divide

z
z2
x  x2 y •
z2

z
2x  2x2 y
Multiply by the reciprocal
of the divisor.
x(1  xy ) • z 2

2 x(1  xy ) • z
Factor and multiply.
x(1  xy ) • z 2

2 x(1  xy ) • z
z

2
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
Divide by the common
factors.
Simplest form
6
The least common multiple (LCM) of two or more numbers is the
least number that contains the prime factorization of each number.
Examples: 1. Find the LCM of 10 and 4.
10 = (5 • 2)
factors of 10
4 = (2 • 2)
LCM = 2 • 2 • 5 = 20
factors of 4
2. Find the LCM of 4x2 + 4x and x2 + 2x + 1.
4x2 + 4x = (4x)(x +1) = 2 • 2 x (x + 1)
x2 + 2x + 1 = (x +1)(x +1)
factors of x2 + 2x + 1
LCM = 2 • 2 x (x +1)(x +1) = 4x3 + 8x2 + 4x
factors of 4x2 + 4x
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
7
Fractions can be expressed in terms of the least common multiple
of their denominators.
x
2x 1
Example: Write the fractions 2 and 2
in terms of the
4x
6 x  12 x
LCM of the denominators.
The LCM of the denominators is 12x2(x – 2).
x
3( x  2) 3( x  2)( x)
x
•


2
(2 x)(2 x) 3( x  2) 12 x 2 ( x  2)
4x
2 x(2 x  1)
2x 1
2x 1 • 2x


2
6 x  12 x 6 x( x  2) 2 x 12 x 2 ( x  2)
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
LCM
8
To add rational expressions:
1. If necessary, rewrite the fractions with a common
denominator.
2. Add the numerators of each fraction.
a c ac
 
b b
b
To subtract rational expressions:
1. If necessary, rewrite the fractions with a common
denominator.
2. Subtract the numerators of each fraction.
a c ac
 
b b
b
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
9
Example: Add
2 x 5x
 .
14 14
2 x  5 x 7x x



14
14 2
2x
4
Example: Subtract 2
.
 2
x 4 x 4
2
2( x  2)
2x  4


 2
x  4 ( x  2)( x  2) ( x  2)
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
10
Two rational expressions with different denominators can be
added or subtracted after they are rewritten with a common
denominator.
Example: Add
x 3
6 .
 2
2
x  2x x  4
x 3
6


x( x  2) ( x  2)( x  2)
x  3 • ( x  2)
6
( x)
•


x( x  2) ( x  2) ( x  2)( x  2) ( x)
( x  3)( x  2)  6 x x 2  x  6  6 x


x( x  2)( x  2)
x( x  2)( x  2)
( x  6)( x  1)
x 2  5x  6


x( x  2)( x  2) x( x  2)( x  2)
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
11
x2
1
Example: Subtract 2
.
 2
x 1 x 1
x2  1
 2
x 1
Add numerators.
( x  1)( x  1)

( x  1)( x  1)
Factor.
( x  1)( x  1)

( x  1)( x  1)
Divide.
1
Simplest form
Copyright © by Houghton Mifflin Company, Inc. All rights reserved.
12
Related documents
Compare 0 Through 10 10is 4. 6is 10. less than greater than 3. 10
Compare 0 Through 10 10is 4. 6is 10. less than greater than 3. 10
Operations on Rational Expressions
Operations on Rational Expressions
Congruent Triangles
Congruent Triangles
Chapter 1
Chapter 1
Multiplying Rational Numbers
Multiplying Rational Numbers
TEACHER NOTES AND ANSWERS Section 5.1
TEACHER NOTES AND ANSWERS Section 5.1
Field of Public Finance
Field of Public Finance
Differentiated Activities for Multiplying Mixed Fractions
Differentiated Activities for Multiplying Mixed Fractions
Numerical Expressions
Numerical Expressions
Topic: Numerical fractions To add fractions when the denominators
Topic: Numerical fractions To add fractions when the denominators
p5_p6 - MSBMoorheadMath
p5_p6 - MSBMoorheadMath
Please open your laptops, log in to the MyMathLab course web site
Please open your laptops, log in to the MyMathLab course web site