Presentation is loading. Please wait.

Presentation is loading. Please wait.

Simplifying Radicals Unit 10 Lesson 2.

Published byRandall Glenn Modified over 5 years ago

Similar presentations

Presentation on theme: "Simplifying Radicals Unit 10 Lesson 2."β€” Presentation transcript:

1 Simplifying Radicals Unit 10 Lesson 2

2 Students will be able to:
Simplifying Radicals Students will be able to: Simplify expressions involving radicals using the properties of radicals.

3 Radicals (or roots) are the opposite operation of applying exponents.
Simplifying Radicals Radicals (or roots) are the opposite operation of applying exponents. A power can be undone with a radical and a radical can be undone with a power. 𝟐 𝟐 =πŸ’ 𝒔𝒐 πŸ’ =𝟐 π’Šπ’π’…π’†π’™ π’“π’‚π’…π’Šπ’„π’‚π’π’… Radical sign 𝟐 πŸ‘ =πŸ– 𝒔𝒐 πŸ‘ πŸ– =𝟐

4 A square (second) root is written as √
Simplifying Radicals Common Radicals: A square (second) root is written as √ A cube (third) root is written as βˆ› A fourth root is written as ∜

5 For every pair of like factors, bring out one of the factors.
Simplifying Radicals To simplify a radical, factor the expression under the radical sign to its prime factors. For every pair of like factors, bring out one of the factors. Multiply whatever is outside the sign, and then multiply whatever is inside the sign. Remember that for each pair, you β€œbring out” only one of the numbers.

6 Simplifying Radicals Sample Problem 1: Simplify the following expressions. Assume that all variables represent positive real numbers. 𝒂. 𝟐𝟎 = 𝒃. πŸ•πŸ 𝒂 𝟐 = 𝐜. πŸ’πŸ“=

7 Simplifying Radicals Sample Problem 1: Simplify the following expressions. Assume that all variables represent positive real numbers. 𝒂. 𝟐𝟎 = πŸ’βˆ—πŸ“ = 𝟐 𝟐 βˆ— πŸ“ =𝟐 πŸ“ 𝒃. πŸ•πŸ 𝒂 𝟐 = πŸβˆ—πŸ‘πŸ”βˆ— 𝒂 𝟐 = 𝟐 βˆ— πŸ” 𝟐 βˆ— 𝒂 𝟐 =πŸ”π’‚ 𝟐 𝐜. πŸ’πŸ“= πŸ‘ 𝟐 βˆ—πŸ“ = πŸ‘ 𝟐 βˆ— πŸ“ =πŸ‘ πŸ“

8 Simplifying Radicals Variables in a radicand are simplified in the same way. You've got a pair that can be taken "out front". Negative Radicals The only restriction that exists for negative signs and radicals is that there cannot be a negative sign under an even root since there is no real solution to this problem. However, a negative sign can exist in front of a radical or under odd roots and still be able to obtain a real number.

9 PRODUCT RULE FOR RADICAL
Simplifying Radicals PRODUCT RULE FOR RADICAL The radical of the product is the product of two radicals. π’Ž π’™π’š = π’Ž 𝒙 βˆ— π’Ž π’š

10 Simplifying Radicals QUOTIENT RULE FOR RADICAL The radical of a quotient is the quotient of the radicals. π’Ž 𝒙 π’š = π’Ž 𝒙 π’Ž π’š π’šβ‰ πŸŽ

11 Simplifying Radicals Radicals can also be written in exponent notation. However, in this case the exponent would be a fraction. π’Ž 𝒙 𝒏 = 𝒙 𝒏 π’Ž If 𝑛 is odd then 𝒏 𝒙 𝒏 =𝒙 If 𝑛 is even then 𝒏 𝒙 𝒏 = 𝒙

12 RATIONALIZING THE DENOMINATOR
Simplifying Radicals RATIONALIZING THE DENOMINATOR When dealing with fractions, a final answer cannot contain radicals in the denominator. Therefore, it is necessary to eliminate any radical from the denominator. The process of removing the radical from the denominator is called rationalizing the denominator.

13 Rationalizing the denominator
Simplifying Radicals Rationalizing the denominator 1. An expression is considered simplified only if there is no radical sign in the denominator. 2. Rationalizing the denominator with two terms, one or both of which involve square root. Step 1: Multiply the numerator and denominator by the conjugate of the denominator Step 2: Simplify the resulting expression if possible

14 b. 𝟐 𝒙+π’š = 𝟐 𝒙+π’š βˆ— 𝒙+π’š 𝒙+π’š = 𝟐 𝒙+π’š 𝒙+π’š
Simplifying Radicals Sample Problem 4: Simplify the following expressions. Assume that all variables represent positive real numbers. a. πŸ• πŸ“ = πŸ• πŸ“ βˆ— πŸ“ πŸ“ = πŸ• πŸ“ πŸ“ b. 𝟐 𝒙+π’š = 𝟐 𝒙+π’š βˆ— 𝒙+π’š 𝒙+π’š = 𝟐 𝒙+π’š 𝒙+π’š

15 POWER OF A RADICAL Simplifying Radicals
The radicand has to be raised to the exponent of the power while the index remains the same. π’Ž 𝒙 𝒏 𝒑 = π’Ž 𝒙 π’βˆ—π’‘

16 Simplifying Radicals RADICAL OF A RADICAL The radicand stays the same, and the index is the product of the indices. π’Ž 𝒏 𝒙 = π’Žβˆ—π’ 𝒙

17 Simplifying Radicals Sample Problem 5: Simplify the following expressions. Assume that all variables represent positive real numbers. a. πŸ“ πŸπŸπŸ“ 𝟐 = πŸ“ πŸ“ πŸ‘βˆ—πŸ = πŸ“ πŸ“ πŸ” =πŸ“ πŸ“ πŸ“ b. πŸ‘ 𝒙 πŸ“ = πŸ‘βˆ—πŸ 𝒙 πŸ“ = πŸ” 𝒙 πŸ“

18 Simplifying Radicals Like radicals are radicals that have the same index and the same radicand

19 Simplify radicals and recognize like or unlike radicals. 𝟐 πŸ“ 𝐚𝐧𝐝 πŸ‘ πŸ“
Simplifying Radicals Sample Problem 6: Simplify radicals and recognize like or unlike radicals. 𝟐 πŸ“ 𝐚𝐧𝐝 πŸ‘ πŸ“ πŸπŸπŸ“ ; πŸ‘ πŸ–πŸŽ 𝐚𝐧𝐝 πŸ’πŸ“

20 Simplifying Radicals Sample Problem 6: Simplify radicals and recognize like or unlike radicals. 𝐚. 𝟐 πŸ“ 𝒂𝒏𝒅 πŸ‘ πŸ“ 𝑳𝑰𝑲𝑬 𝑹𝑨𝑫𝑰π‘ͺ𝑨𝑳𝑺 b. πŸπŸπŸ“ ; πŸ‘ πŸ–πŸŽ 𝒂𝒏𝒅 πŸ’πŸ“ πŸπŸ“βˆ—πŸ“ ; πŸ‘ πŸπŸ”βˆ—πŸ“ ;𝒂𝒏𝒅 πŸ—βˆ—πŸ“ πŸ“ πŸ“ ; 𝟏𝟐 πŸ“ ; 𝒂𝒏𝒅 πŸ‘ πŸ“

21 Simplify radicals and recognize like or unlike radicals.
Simplifying Radicals Sample Problem 6: Simplify radicals and recognize like or unlike radicals. c. πŸ’ πŸ‘ 𝒙 𝟐 𝒂𝒏𝒅 πŸ’ 𝒙 πŸ‘ d. πŸ‘ 𝒂 𝒃 𝟐 ; πŸ’π’ƒ 𝒂 ; πŸ’ 𝒂𝒃 𝟐

22 Simplify radicals and recognize like or unlike radicals.
Simplifying Radicals Sample Problem 6: Simplify radicals and recognize like or unlike radicals. c. πŸ’ πŸ‘ 𝒙 𝟐 𝒂𝒏𝒅 πŸ’ 𝒙 πŸ‘ 𝑼𝑡𝑳𝑰𝑲𝑬 𝑹𝑨𝑫𝑰π‘ͺ𝑨𝑳𝑺 d. πŸ‘ 𝒂 𝒃 𝟐 ; πŸ’π’ƒ 𝒂 ; πŸ’ 𝒂𝒃 𝟐 πŸ‘π’ƒ 𝒂 ; πŸ’π’ƒ 𝒂 ; πŸπ’ƒ 𝒂 𝑳𝑰𝑲𝑬 𝑹𝑨𝑫𝑰π‘ͺ𝑨𝑳𝑺

Download ppt "Simplifying Radicals Unit 10 Lesson 2."

Similar presentations

Dividing Radicals Note- Notes for rationalizing denominators are included in this powerpoint, yet students are not required to rationalize radical denominators.

Dividing Radicals Note- Notes for rationalizing denominators are included in this powerpoint, yet students are not required to rationalize radical denominators.
Multiplying, Dividing, and Simplifying Radicals

Multiplying, Dividing, and Simplifying Radicals
Ch 8 - Rational & Radical Functions Simplifying Radical Expressions.

Ch 8 - Rational & Radical Functions Simplifying Radical Expressions.
SIMPLIFYING SQUARE ROOTS. Definition of radicals Square roots usually show up in radical signs. β€œRadical” is another word for root: The square root of.

SIMPLIFYING SQUARE ROOTS. Definition of radicals Square roots usually show up in radical signs. β€œRadical” is another word for root: The square root of.
Simplifying Radicals.

Simplifying Radicals.
7.1 – Radicals Radical Expressions

7.1 – Radicals Radical Expressions
5.1 Radicals & Rational Exponents

5.1 Radicals & Rational Exponents
Dividing and Simplifying Just as the root of a product can be expressed as the product of two roots, the root of a quotient can be expressed as the quotient.

Dividing and Simplifying Just as the root of a product can be expressed as the product of two roots, the root of a quotient can be expressed as the quotient.
SIMPLIFYING RADICALS. Definition of radicals β€œRadical” is another word for root: Square root cube root fourth root, etc.

SIMPLIFYING RADICALS. Definition of radicals β€œRadical” is another word for root: Square root cube root fourth root, etc.
C ollege A lgebra Basic Algebraic Operations (Appendix A) L:5 1 Instructor: Eng. Ahmed Abo absa University of Palestine IT-College.

C ollege A lgebra Basic Algebraic Operations (Appendix A) L:5 1 Instructor: Eng. Ahmed Abo absa University of Palestine IT-College.
Simplifying Radical Expressions

Simplifying Radical Expressions
Objective: Add, subtract and multiplying radical expressions; re-write rational exponents in radical form. Essential Question: What rules apply for adding,

Objective: Add, subtract and multiplying radical expressions; re-write rational exponents in radical form. Essential Question: What rules apply for adding,
5.5 Roots of Real Numbers and Radical Expressions.

5.5 Roots of Real Numbers and Radical Expressions.
Operations on Radicals

Operations on Radicals
Section 10.5 Expressions Containing Several Radical Terms.

Section 10.5 Expressions Containing Several Radical Terms.
R8 Radicals and Rational Exponent s. Radical Notation n is called the index number a is called the radicand.

R8 Radicals and Rational Exponent s. Radical Notation n is called the index number a is called the radicand.
6.1 – Rational Exponents Radical Expressions Finding a root of a number is the inverse operation of raising a number to a power. This symbol is the radical.

6.1 – Rational Exponents Radical Expressions Finding a root of a number is the inverse operation of raising a number to a power. This symbol is the radical.
Algebra 2: Unit 8 Roots and Radicals. Radicals (also called roots) are directly related to exponents. Roots and Radicals.

Algebra 2: Unit 8 Roots and Radicals. Radicals (also called roots) are directly related to exponents. Roots and Radicals.
Lesson 8-6B Use Cube Roots and Fractional Exponents After today’s lesson, you should be able to evaluate cube roots and simplify expressions with fractional.

Lesson 8-6B Use Cube Roots and Fractional Exponents After today’s lesson, you should be able to evaluate cube roots and simplify expressions with fractional.
Radicals Simplify radical expressions using the properties of radicals

Radicals Simplify radical expressions using the properties of radicals

Similar presentations

Ads by Google