Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 8.5. C OMBINING L IKE T ERMS  Lesson Objective: NCSCOS 1.01 – Write the equivalent forms of algebraic expressions to solve problems  Students.

Published byAron Wade Modified over 9 years ago

Similar presentations

Presentation on theme: "Chapter 8.5. C OMBINING L IKE T ERMS  Lesson Objective: NCSCOS 1.01 – Write the equivalent forms of algebraic expressions to solve problems  Students."— Presentation transcript:

1 Chapter 8.5

2 C OMBINING L IKE T ERMS  Lesson Objective: NCSCOS 1.01 – Write the equivalent forms of algebraic expressions to solve problems  Students will know how to add and subtract polynomials using the concept of “like terms.”

3 C OMBINING L IKE T ERMS  *Like Terms – Like terms must all have the same letters and each letter must have the same exponent.  Like terms can be added and subtracted from each other.  This is called “combining like terms”.  If they are not like terms they cannot be added or subtracted from each other.

4 C OMBINING L IKE T ERMS EExample 1: Solve 3x 2 + 5x 2 33x 2 and 5x 2 are “like terms” because they both contain an x and both of the x’s are squared WWhen we combine like terms either add or subtract the numbers, but the variable will not change TTherefore we can combine 3x 2 and 5x 2 together and get 8x 2 = 8x 2

5 C OMBINING L IKE T ERMS  Example 2: Solve 4x 3 + 4x 2  4x 3 and 4x 2 are not “like terms” because the x’s have different exponents  Therefore they cannot be combined = 4x 3 + 4x 2

6 C OMBINING L IKE T ERMS  Example 3: Solve 3x 2 y 3 + 5x 2 y 3  3x 2 y 3 and 5x 2 y 3 are “like terms” because they both have x’s and y’s and the exponents for both x and y are the same.  We can combine them = 8x 2 y 3

7 C OMBINING L IKE T ERMS  Example 4: Solve 4x 2 y 3 + 4x 2 y 5  4x 2 y 3 and 4x 2 y 5 are not like terms because the exponents on the y’s are different  These cannot be combined = 4x 2 y 3 + 4x 2 y 5

8 C OMBINING L IKE T ERMS  Example 5: Find (2x 2 + x – 8) + (3x – 4x 2 + 2)  Combine like terms: (2x 2 + x – 8) + (3x – 4x 2 + 2)  ( ) + ( ) + ( )  Add them and write your answer: -2x 2 + 4x – 6  Rule: When adding polynomials you just combine the like terms. Remember minus signs are a negative for the number right after it! 2x 2 – 4x 2 x + 3x-8 + 2

9 C OMBINING L IKE T ERMS  Example 5: Find (2x 2 + x – 8) + (3x – 4x 2 + 2)  Let’s try this a different way  We can set up this addition problems like:

10 C OMBINING L IKE T ERMS  Let’s do the same with our problem  Make sure the numbers line up properly when you do it!  Now add them up (2x 2 + x – 8)

11 C OMBINING L IKE T ERMS 1. 2x 2 + 3x 2 2. 5x 3 + 2x 2 3. 7x 2 y 3 – 3x 2 y 3 4. (7x 2 + 2x – 3) + (4x 2 – x + 5)

12 C OMBINING L IKE T ERMS 1. 2x 2 + 3x 2 2. 5x 3 + 2x 2 3. 7x 2 y 3 – 3x 2 y 3 4. (7x 2 + 2x – 3) + (4x 2 – x + 5) 5x 2 5x 3 + 2x 2 4x 2 y 3 11x 2 + x + 2

13 C OMBINING L IKE T ERMS  Example 6: Find (3x 2 + 2x – 6) – (3x + x 2 + 3)  Distribute the negative sign into the parenthesis: (3x 2 + 2x – 6) – (3x + x 2 + 3)  (3x 2 + 2x – 6) + (–3x – x 2 – 3)  Combine like terms: (3x 2 – x 2 ) + (2x – 3x) + (-6 – 3)  Add them and write your answer: 2x 2 – x – 9  Rule: When subtracting polynomials you must first distribute the negative into the parenthesis before combining like terms.

14  Example 6: Find  First, distribute the negative into the parenthesis after it  Now all the parenthesis can go away

15  Combine like terms  I always put the sign in with my squares or circles

16  Or you can add them  Make sure to line them up properly!

17 C OMBINING L IKE T ERMS  Example: (2x 2 + 3x – 1) + (5x 2 – 3x + 5)  Combine like terms  *If two numbers add up to zero, do not write them in the final answer.

18 C OMBINING L IKE T ERMS 1. (7x 2 + 2x – 3) – (4x 2 – x + 5) 2. (5x 3 – 2x 2 + 4) – (3x 3 + 2x – 2) 3. (3x 2 + 4x – 2) – (6x 2 + 4x – 5)

19 C OMBINING L IKE T ERMS 1. (7x 2 + 2x – 3) – (4x 2 – x + 5) 2. (5x 3 – 2x 2 + 4) – (3x 3 + 2x – 2) 3. (3x 2 + 4x – 2) – (6x 2 + 4x – 5) 3x 2 + 3x – 8 2x 3 – 2x 2 – 2x + 6 -3x 2 + 3

20 C OMBINING L IKE T ERMS 1. 3x 2 + 5x – 2x 2 2. (3x 2 + 2x + 4) + (4x 2 – x + 6) 3. (2x 3 – 3x 2 + 5) – (x 3 – 2x – 2) 4. (6x 2 + 2x – 2) – (3x 2 + 2x – 5) 5. (5x 2 y 3 – 2xy + 4y 2 ) – (2x 2 y 3 + 5x 3 – 5xy)

21 C OMBINING L IKE T ERMS 1. 3x 2 + 5x – 2x 2 2. (3x 2 + 2x + 4) + (4x 2 – x + 6) 3. (2x 3 – 3x 2 + 5) – (x 3 – 2x – 2) 4. (6x 2 + 2x – 2) – (3x 2 + 2x – 5) 5. (5x 2 y 3 – 2xy + 4y 2 ) – (2x 2 y 3 + 5x 3 – 5xy) x 2 + 5x 7x 2 + x + 10 x 3 – 3x 2 + 2x + 7 3x 2 + 3 -5x 3 + 3x 2 y 3 + 3xy + 4y 2

Download ppt "Chapter 8.5. C OMBINING L IKE T ERMS  Lesson Objective: NCSCOS 1.01 – Write the equivalent forms of algebraic expressions to solve problems  Students."

Similar presentations

Adding and Subtracting Polynomials Whats a polynomial?

Adding and Subtracting Polynomials Whats a polynomial?
The Distributive Property & Combining Like Terms

The Distributive Property & Combining Like Terms
Polynomials Identify Monomials and their Degree

Polynomials Identify Monomials and their Degree
Distributive Property

Distributive Property
Bell Work Simplify the expression: 1. 2(x +4) 2. 4x + 3y – x + 2y 3. 3(x – 6) + 4 + 8x Answers: 2x+ 8 3x + 5y 11x – 14.

Bell Work Simplify the expression: 1. 2(x +4) 2. 4x + 3y – x + 2y 3. 3(x – 6) x Answers: 2x+ 8 3x + 5y 11x – 14.
1-7 The Distributive Property

1-7 The Distributive Property
Laws of Exponents. Remember: Rule 1—Multiplying like bases  When multiplying like bases, keep the base and ADD the exponents.

Laws of Exponents. Remember: Rule 1—Multiplying like bases  When multiplying like bases, keep the base and ADD the exponents.
Evaluating Expressions 3-1-1. Expressions An expression is variables and operations. Equations have equal signs and could be solved. An expression can.

Evaluating Expressions Expressions An expression is variables and operations. Equations have equal signs and could be solved. An expression can.
Rational Numbers ~ Multiplying Rational Numbers

Rational Numbers ~ Multiplying Rational Numbers
In this lesson, you will be shown how to combine like terms along with using the distributive property.

In this lesson, you will be shown how to combine like terms along with using the distributive property.
The Distributive Property & Combining Like Terms.

The Distributive Property & Combining Like Terms.
M ULTIPLYING A P OLYNOMIAL BY A M ONOMIAL Chapter 8.6.

M ULTIPLYING A P OLYNOMIAL BY A M ONOMIAL Chapter 8.6.
Solving Equations with variables on both sides of the Equals Chapter 3.5.

Solving Equations with variables on both sides of the Equals Chapter 3.5.
You can’t put chickens and lions in the same cage!

You can’t put chickens and lions in the same cage!
Math 2 1. Subtracting integers: 2 – (-8) Rule When we subtract we ADD THE OPPISITE! (never change the first number!) 2 + 8 is the same as 2 – (-8)…..

Math 2 1. Subtracting integers: 2 – (-8) Rule When we subtract we ADD THE OPPISITE! (never change the first number!) is the same as 2 – (-8)…..
A dding two negative integers: add the absolute values the answer is negative Adding a negative and a positive number: subtract the absolute values the.

A dding two negative integers: add the absolute values the answer is negative Adding a negative and a positive number: subtract the absolute values the.
Polynomials Algebra I.

Polynomials Algebra I.
SIMPLIFY EXPRESSIONS WITH INTEGER EXPONENTS PRACTICE ALL OF THE PROPERTIES OF EXPONENTS.

SIMPLIFY EXPRESSIONS WITH INTEGER EXPONENTS PRACTICE ALL OF THE PROPERTIES OF EXPONENTS.
Lesson 8-1 Negative & Zero. Your Goal: Simplify expressions containing integer exponents.

Lesson 8-1 Negative & Zero. Your Goal: Simplify expressions containing integer exponents.
Review Laws of Exponents

Review Laws of Exponents

Similar presentations

Ads by Google