MTH 209 Week 1 - Biker John€¦ · MTH 209 Week 1 . Due for this week ... Complete the Week 1...
Transcript of MTH 209 Week 1 - Biker John€¦ · MTH 209 Week 1 . Due for this week ... Complete the Week 1...
Due for this week…
Homework 1 (on MyMathLab – via the Materials
Link) The fifth night after class at 11:59pm.
Read Chapter 6.1-6.4,
Do the MyMathLab Self-Check for week 1.
Learning team coordination/connections.
Complete the Week 1 study plan after submitting
week 1 homework.
Participate in the Chat Discussions in the OLS
Slide 2 Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley
Section 5.2
Addition and
Subtraction of
Polynomials
Copyright © 2013, 2009, and 2005 Pearson Education, Inc.
Objectives
• Monomials and Polynomials
• Addition of Polynomials
• Subtraction of Polynomials
• Evaluating Polynomial Expressions
Monomials and Polynomials
A monomial is a number, a variable, or a product of
numbers and variables raised to natural number
powers.
Examples of monomials:
The degree of monomial is the sum of the
exponents of the variables. If the monomial has only
one variable, its degree is the exponent of that
variable.
The number in a monomial is called the coefficient
of the monomial.
3 2 9 88, 7 , , 8 , y x x y xy
Example
Determine whether the expression is a polynomial. If it is,
state how many terms and variables the polynomial contains
and its degree.
a. 9y2 + 7y + 4
b. 7x4 – 2x3y2 + xy – 4y3 c.
Solution
a. The expression is a polynomial with three terms and one
variable. The term with the highest degree is 9y2, so the
polynomial has degree 2.
b. The expression is a polynomial with four terms and two
variables. The term with the highest degree is 2x3y2, so the
polynomial has degree 5.
c. The expression is not a polynomial because it contains
division by the polynomial x + 4.
2 38
4x
x
Try Q: 21,23,27 pg 314
Example
State whether each pair of expressions contains like
terms or unlike terms. If they are like terms, then add
them.
a. 9x3, −2x3 b. 5mn2, 8m2n
Solution
a. The terms have the same variable raised to the
same power, so they are like terms and can be
combined.
b. The terms have the same variables, but these
variables are not raised to the same power. They
are therefore unlike terms and cannot be added.
9x3 + (−2x3) =
(9 + (−2))x3 = 7x3
Try Q: 29,31,33 pg 314
Example
Add by combining like terms.
Solution
2 23 4 8 4 5 3x x x x
2 28 3443 5x x x x
2 2 4 8 34 53x x x x
2 23 4 8 4 5 3x x x x
2 4( ) (3 4 )3) (85x x
2 57x x
Try Q: 37,38 pg 314
Example
Simplify.
Solution
Write the polynomial in a vertical format and then
add each column of like terms.
2 2 2 27 3 7 2 2 .x xy y x xy y
2
2
2
2
7 3 7
2 2
yxy
yx y
x
x
2 25 2 5xyx y
Try Q: 41 pg 314
To subtract two polynomials, we add the first
polynomial to the opposite of the second polynomial.
To find the opposite of a polynomial, we negate
each term.
Subtraction of Polynomials
Example
Simplify.
Solution
The opposite of
3 2 3 25 3 6 5 4 8 .w w w w
3 2 3 25 4 8 is 5 4 8w w w w
3 2 3 25 3 6 5 4 8w w w w
3 2(5 5) (3 4) ( 6 8)w w
3 20 7 2w w
27 2w
Try Q: 57,59,61 pg 314
Example
Simplify.
Solution
2 210 4 5 4 2 1 .x x x x
2
2
10 4 5
4 2 1
x
x
x
x
26 6 6x x
Try Q: 69 pg 315
Example
Write a monomial that represents the total volume of
three identical cubes that measure x along each
edge. Find the total volume when x = 4 inches.
Solution
The volume of ONE cube is found by multiplying the
length, width and height.
The volume of 3 cubes would be:
3
V x x x
V x
33V x
Example (cont)
Write a monomial that represents the total volume of
three identical cubes that measure x along each
edge. Find the total volume when x = 4 inches.
Solution
Volume when x = 4 would be:
The volume is 192 square inches.
33V x
33(4)
192
V
Try Q: 73 pg 315
Objectives
• Multiplying Monomials
• Review of the Distributive Properties
• Multiplying Monomials and Polynomials
• Multiplying Polynomials
Multiplying Monomials
A monomial is a number, a variable, or a product of
numbers and variables raised to natural number
powers. To multiply monomials, we often use the
product rule for exponents.
Example
Multiply.
a. b.
Solution
a. b.
4 36 3x x 3 4 2(6 )( )xy x y
4 36 3x x
4 3( 6)(3)x
718x
3 4 2(6 )( )xy x y
4 3 26xx y y
1 4 3 26x y
5 56x y
Try Q: 9,13 pg 322
Example
Multiply.
a. b. c.
Solution
a. b.
c.
3(6 )x 4( 2 )x y (3 5)(7)x
3 36 6( ) 3x x
18 3x
4( ) ( ) ( )( 2 )4 42x y x y
4 8x y
3 5 3( )( ) ( ) ( )757 7x x
21 35x
Try Q: 15,19,21 pg 322
Example
Multiply.
a. b.
Solution
a. b.
24 (3 2)xy x y 3 3( )ab a b
24 (3 2)xy x y
23 24 4x yxy xy
212 8xx yy xy
3 3( )ab a b
3 3ab a ab b
4 4a b ab
3 212 8x y xy
Try Q: 23-29 pg 322
Example
Multiply.
Solution
( 2)( 4) x x
2 24 4x x xx
2 2( )( ) ( )( )4 )2 ( )4(x xx x x
2 2 4 8x x x
2 6 8x x
Try Q: 39 pg 323
Example
Multiply each binomial.
a. b.
Solution
a.
b.
(3 1)( 4)x x 2( 2)(3 1)x x
(3 1)( 4)x x 3 3 4 1 1 4x x x x
23 12 4x x x
23 11 4x x
2( 2)(3 1)x x 2 23 ( 1) 2 3 2 1x x x x
3 23 6 2x x x Try Q: 51,53,59 pg 323
Example
Multiply.
a. b.
Solution
a.
b.
24 ( 6 1)x x x 2( 2)( 5 2)x x x
24 4 6 4 1x x x x x
3 24 24 4x x x
24 ( 6 1)x x x
2 5 ( 2) x x x x x
3 2 25 2 2 10 4x x x x x
2( 2)( 5 2)x x x
3 27 8 4x x x
22 2 5 2 2 x x
Try Q: 63,67,69 pg 323
Example
Multiply.
Solution
2 23 ( 3 4 ) ab a ab b
2 233 3 43ab aba ab bab
3 2 2 33 9 12a b a b ab
2 23(3 )4a abab b
Example
Multiply vertically.
Solution
21 (2 3) x x x
22 3
1
x x
x
22 3x x 3 22 3x x x
3 22 4 3x x x
Try Q: 71 pg 323
Example
Multiply.
a. (x + 4)(x – 4) b. (3t + 4s)(3t – 4s)
Solution
a. We can apply the formula for the product of a sum
and difference.
b.
(x + 4)(x – 4) = (x)2 − (4)2
= x2 − 16
(3t + 4s)(3t – 4s) = (3t)2 – (4s)2
= 9t2 – 16s2
Try Q: 7,13,17 pg 329
Example
Use the product of a sum and difference to find 31 ∙
29.
Solution
Because 31 = 30 + 1 and 29 = 30 – 1, rewrite and
evaluate 31 ∙ 29 as follows.
31 ∙ 29 = (30 + 1)(30 – 1)
= 302 – 12
= 900 – 1
= 899
Try Q: 21 pg 329
Example
Multiply.
a. (x + 7)2 b. (4 – 3x)2
Solution
a. We can apply the formula for squaring a binomial.
b.
(x + 7)2 = (x)2 + 2(x)(7) + (7)2
= x2 + 14x + 49
(4 – 3x)2 = (4)2 − 2(4)(3x) + (3x)2
= 16 − 24x + 9x2
Try Q: 27,29,35,39 pg 330
Example
Multiply (5x – 3)3.
Solution
= (5x − 3)(5x − 3)2
= 125x3
(5x – 3)3
= (5x − 3)(25x2 − 30x + 9)
= 125x3 – 225x2 + 135x – 27
– 27 – 150x2 + 45x – 75x2 + 90x
Try Q: 47 pg 330
Example
If a savings account pays x percent annual interest,
where x is expressed as a decimal, then after 2
years a sum of money will grow by a factor of (x +
1)2.
a. Multiply the expression.
b. Evaluate the expression for x = 0.12 (or 12%), and
interpret the result.
Solution
a. (1 + x)2 = 1 + 2x + x2
b. Let x = 0.12
1 + 2(0.12) + (0.12)2 = 1.2544
The sum of money will increase by a factor of 1.2544. For
example if $5000 was deposited in the account, the
investment would grow to $6272 after 2 years.
Try Q: 75 pg 330
Example
Divide.
Solution
25 8 10
5
a a
a
25 8 10
5
a a
a
25 8 10
5 5 5
a a
a a a
8 2
5 a
a
Try Q: 17,19,21 pg 348
Example
Divide the expression and then
check the result.
Solution
Check
5 4 2
3
16 12 8
4
y y y
y
5 4 2
3 3 3
16 12 8
4 4 4
y y y
y y y
2 24 3y y
y
5 4 2
3
16 12 8
4
y y y
y
3 2 24 4 3y y y
y
3 2 3 3 24 4 4 3 4y y y y y
y
5 4 216 12 8y y y
Try Q: 23 pg 348
Example
Divide and check.
Solution
The quotient is 2x + 4 with remainder −4, which also
can be written as
24 6 8
2 1
x x
x
22 1 4 6 8x x x 2x
4x2 – 2x
8x – 8
8x – 4
−4
+ 4
42 4 .
2 1x
x
Example (cont)
Check: (Divisor )(Quotient) + Remainder = Dividend
(2x – 1)(2x + 4) + (– 4) = 2x ∙ 2x + 2x ∙ 4 – 1∙ 2x − 1∙ 4 − 4
= 4x2 + 8x – 2x − 4 − 4
= 4x2 + 6x − 8
It checks.
24 6 8
2 1
x x
x
Try Q: 27 pg 349
Example
Simplify (x3 − 8) ÷ (x − 2).
Solution
3 22 0 0 8x x x x
x2
x3 – 2x2 2x2 + 0x 2x2 − 4x
4x − 8
+ 2x + 4
0 4x − 8
The quotient is 2 2 4.x x Try Q: 37 pg 349
Example
Divide 3x4 + 2x3 − 11x2 − 2x + 5 by x2 − 2.
Solution
2 4 3 20 2 3 2 11 2 5x x x x x x
3x2
3x4 + 0 –
6x2 2x3 − 5x2 − 2x 2x3 + 0 − 4x
−5x2 + 2x + 5
+ 2x − 5
2x – 5 −5x2 + 0 + 10
The quotient is 22
2 53 2 5 .
2
xx x
x
Try Q: 41 pg 349
Due for this week…
Homework 1 (on MyMathLab – via the Materials
Link) The fifth night after class at 11:59pm.
Read Chapter 6.1-6.4
Do the MyMathLab Self-Check for week 1.
Learning team planning introductions.
Slide 46 Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley
End of week 1
You again have the answers to those problems not
assigned
Practice is SOOO important in this course.
Work as much as you can with MyMathLab, the
materials in the text, and on my Webpage.
Do everything you can scrape time up for, first the
hardest topics then the easiest.
You are building a skill like typing, skiing, playing a
game, solving puzzles.
NEXT TIME: Factoring polynomials, rational
expressions, radical expressions, complex numbers