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Simplifying Radicals. Perfect Squares. 64. 225. 1. 81. 256. 4. 100. 289. 9. 121. 16. 324. 144. 25. 400. 169. 36. 196. 49. Simplify. = 2. = 4. = 5. This is a piece of cake!. = 10. = 12. Simplify Using Perfect Square Method. Find a perfect square that goes into 147.
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Perfect Squares 64 225 1 81 256 4 100 289 9 121 16 324 144 25 400 169 36 196 49
Simplify = 2 = 4 = 5 This is a piece of cake! = 10 = 12
Simplify Using Perfect Square Method Find a perfect square that goes into 147
Simplify Find a perfect square that goes into 605
Perfect Square Factor * Other Factor Simplify = = = = LEAVE IN RADICAL FORM = = = = = =
Simplifying Radicals by Tree Method. Simplify the following. Step one, break the number down into a factor tree. Step two: Circle any pairs. The pairs bust out of the klink. 10 2 5 2
So… which is really just… so it ends up like this… This guy didn’t have a partner and so is left in prison This guy gets away This guy gets caught and is never heard from again But teacher, teacher, what happens to the other guy? He’s Dead, gone, went bye bye, won’t see him again! The guy that got away The guy left in prison
Simplify the following: Step 1: Make a factor tree So that leaves: Which is: Another Example 10 14 2 5 7 2
Cake Method Video on Cake Method
Your Turn! Simplify the following: 1. 2. 3. 4. 8
Simplify = = LEAVE IN RADICAL FORM = = =
Simplify = = LEAVE IN RADICAL FORM = = =
Adding or Subtracting Radicals To add or subtract square roots you must have like radicands (the number under the radical). Then you add or subtract the coefficients! Sometimes you must simplify first:
Multiplying Radicals * To multiply radicals: multiply the coefficients and then multiply the radicands and then simplify the remaining radicals.
Radical Product Property ONLY when a≥0 and b≥0 For Example: Equal
Multiplying Radicals 1. Multiply terms outside the radical together. 2. Multiply terms inside the radical together. 3. Simplify.
Multiplication and Radicals Simplify the expression:
Multiplying Radicals You can multiply using distributive property and FOIL.
Using the Conjugate to Simplify Conjugate Expression Conjugate Product The radical “goes away” every time
_______ _______ To divide radicals: divide the coefficients, divide the radicands if possible, and rationalize the denominator so that no radical remains in the denominator
Radical Quotient Property ONLY when a≥0 and b≥0 For Example: Equal
Fractions and Radicals Simplify the expressions: There is nothing to simplify because the square root is simplified and every term in the fraction can not be divided by 10. Make sure to simplify the fraction.
Dividing to Simplify Radicals No radicals in the denominator allowed Denominators must be “rationalized.” √ Multiply by 1in the form of √ 3 1
Using the Conjugate to Simplify Conjugate Expression Conjugate Product The radical “goes away” every time
Dividing to Simplify Radicals conjugate Multiply by 1in the form of conjugate 5 1 11
This cannot be divided which leaves the radical in the denominator. We do not leave radicals in the denominator. So we need to rationalize by multiplying the fraction by something so we can eliminate the radical in the denominator. 42 cannot be simplified, so we are finished.
This can be divided which leaves the radical in the denominator. We do not leave radicals in the denominator. So we need to rationalize by multiplying the fraction by something so we can eliminate the radical in the denominator.
This cannot be divided which leaves the radical in the denominator. We do not leave radicals in the denominator. So we need to rationalize by multiplying the fraction by something so we can eliminate the radical in the denominator. Reduce the fraction.
Summary: To ADD and SUBTRACT COMBINE LIKE TERMS To MULTIPLY “Outside” NUMBERS x NUMBERS “Inside” NUMBERS x NUMBERS DISTRIBUTE and FOIL To DIVIDE “Rationalize” denominator using 1 Use conjugate ALWAYS SIMPLIFY AT THE END IF YOU CAN