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Day 2 – Simplifying Radicals & Basic Operations

Day 2 – Simplifying Radicals & Basic Operations. Warm-up #2 (3.13.2014). Simplify using only positive exponents 7n 2 • 3n 5 2. (4y 6 ) 3 Solve for the value of x. Homework Check. Essential Question #2 (3.13.2014).

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Day 2 – Simplifying Radicals & Basic Operations

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  1. Day 2 – Simplifying Radicals & Basic Operations

  2. Warm-up #2 (3.13.2014) Simplify using only positive exponents • 7n2 • 3n5 2. (4y6)3 Solve for the value of x

  3. Homework Check

  4. Essential Question #2 (3.13.2014) How can properties of exponents be used to write radical expressions in useful equivalent forms?

  5. What is a Radical? • We are familiar with taking square roots and even taking cubed roots, but you may not be as familiar with the elements of a radical. index root radicand

  6. What is a Radical? • An index in a radical tells you how many times you have to multiply the root times itself to get the radicand. When a radical is written without an index, there is an understood index of 2. • For example, in , 81 is the radicand, 9 is the root, and the index is 2. You have to multiply 9 by itself twice to get the radicand (9•9 = 92 = 81).

  7. Evaluating Radicals • Radicand: • Index: • Root: because • Radicand: • Index: • Root: because

  8. Evaluating Radicals with the Calculator • For some of the more complex problems, you can use a calculator to help • Step 1: Type in the index • Step 2: Press MATH • Step 3: Choose 5 • Step 4: Type in the radicand

  9. Simplifying Radicals Investigation • Now you will have a chance to practice some on your own. Complete the three examples on the bottom of the page. Then move to the next side and read the introduction carefully. Your goal is to come up with methods and shortcuts to simplify the radicals.

  10. Simplifying Radicals • Find the Prime Factorization of the radicand • Any sets of “n” numbers (n=index) have one representative multiplied outside • Any remaining numbers not in a set are multiplied inside.

  11. Examples In your groups, complete the remaining problems

  12. Multiplying Radicals When written in radical form, it’s only possible to write two multiplied radicals as one if the index is the same. • Multiply the coefficients • Multiply the radicands • Simplify!

  13. Examples In your groups, complete the remaining problems

  14. Adding & Subtracting Radicals • You can only add or subtract radicals that contain the same index and radicand. • Just like you don’t change the variable expression, you won’t change the radical expression. • Only add and subtract the coefficients. • ALWAYS SIMPLFY THE RADICAL FIRST!

  15. Examples In your groups, complete the remaining problems

  16. Homework: “Lesson 2 - Simplifying Radicals Homework”

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