7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 7­2 Day 2 ­ Dividing Radical Expressions Objective: Divide radical expressions. Jan 6­10:48 AM 1 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Simplify each of the following expressions and look for a pattern. √36 6 = √25 5 √( ) 2 36 6 6 = = 25 5 5 √ Therefore, √36 36 = √25 25 . √ Jan 19­1:22 PM 2 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Dividing Radical Expressions *Same root Jan 25­10:17 AM 3 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #1: Divide and simplify. Assume that all varaibles are positive. a. ∛32 32 = 3 ∛­4 ­4 = ∛­8 = ­2 √ b. ∛162x5 162x5 = ∛54x3 = ∛27x3(2) = 3x∛2 2 = 3 2 ∛3x 3x √ Jan 6­10:52 AM 4 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #2: Divide and simplify. Assume that all variables are positive. a. √243 √27 4 b. √12x √3x c. ∜1024x ∜4x 15 Jan 6­10:54 AM 5 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 To rationalize the denominator of an expression, rewrite it so there are no radicals in any denominator and no denominators in any radical. This makes it easier to calculate the decimal approximation. Example: 1 √2 = √2 2 *Two methods of rationalizing the denominator are shown on the next page. Jan 6­10:54 AM 6 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Feb 9­2:19 PM 7 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #3: Rationalize the denominator of each expression. Assume that all variables are positive. a. √2 √3 Method 1 √2 2 2 3 6 √6 √6 = = = = 2 2 = √3 3 3 3 3 √3 3 √ √ √ *Rewrite as a square root of a fraction. Then make the denominator a perfect square. Method 2 6 √2 = √2 √3 =√ √3 √3 √3 3 *Multiply the numerator and denominator by √3 so the denominator becomes a whole number. Jan 6­10:54 AM 8 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #3: (continued) x3 √5xy √5x4y x2√5y x√5y b. √x3 √ = = = = √5xy √5xy √5xy 5xy 5xy 5y c. 2 2 2 2 2 2 3 x 18x 18x ∛ = 3 = 3 = 3 3x 3x 32x2 33x3 3x √ √ √ *Rewrite the fraction so the denominator is a perfect cube. Jan 6­10:56 AM 9 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #4: Rationalize the denominator of each expression. Assume that all variables are positive. a. 7 5 √ b. √2x 3 √10xy c. ∛4 ∛6x Jan 6­10:56 AM 10 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Example #5: Einstein's famous formula E = mc2 relates energy E, mass m, and the speed of light c. Express c in terms of E and m and rationalize the denominator. E = mc2 c2 = E m c = E Em √Em √Em = = = m m2 √m2 m √ √ Jan 6­10:57 AM 11 7­2 Day 2 Dividing Radical Expressions 2010 February 09, 2010 Homework: page 377 (23 ­ 34, 37 ­ 49 odd) Jan 6­11:00 AM 12