Multiplying and Dividing Rational Expressions 12-4 Warm Up Lesson Presentation Lesson Quiz Holt Algebra 1
Warm Up Multiply. 1. 2x2(x + 3) 2. (x – 5)(3x + 7) 3. 3x(x2 +2x + 2) 4. Simplify . 2x3 + 6x2 3x2 – 8x – 35 3x3 + 6x2 + 6x
Warm Up Divide. Simplify your answer. 5. 6. 7. 8.
Objective Multiply and divide rational expressions.
The rules for multiplying rational expressions are the same as the rules for multiplying fractions. You multiply the numerators, and you multiply the denominators.
Example 1A: Multiplying Rational Expressions Multiply. Simplify your answer. Multiply the numerators and denominators. Factor. Divide out the common factors. Simplify.
Example 1B: Multiplying Rational Expressions Multiply. Simplify your answer. Multiply the numerators and the denominators. Arrange the expression so like variables are together. Simplify. Divide out common factors. Use properties of exponents. Simplify. Remember that z0 = 1.
Example 1C: Multiplying Rational Expressions Multiply. Simplify your answer. Multiply. There are no common factors, so the product cannot be simplified.
See the Quotient of Powers Property in Lesson 7-4. Remember!
Check It Out! Example 1a Multiply. Simplify your answer. Multiply the numerators and the denominators. Arrange the expression so like variables are together. Simplify. Divide out common factors. Use properties of exponents.
Check It Out! Example 1b Multiply. Simplify your answer. Multiply the numerators and the denominators. Arrange the expression so like variables are together. Simplify. Divide out common factors. Use properties of exponents.
Example 2: Multiplying a Rational Expression by a Polynomial. Multiply . Simplify your answer. Write the polynomial over 1. Factor the numerator and denominator. Divide out common factors. Multiply remaining factors.
Check It Out! Example 2 Multiply Simplify your answer. Write the polynomial over 1. Factor the numerator and denominator. Divide out common factors. Multiply remaining factors.
Just as you can write an integer as a fraction, you can write any expression as a rational expression by writing it with a denominator of 1. Remember!
There are two methods for simplifying rational expressions There are two methods for simplifying rational expressions. You can simplify first by dividing out and then multiply the remaining factors. You can also multiply first and then simplify. Using either method will result in the same answer.
Example 3: Multiplying a Rational Expression Containing Polynomials Multiply . Simplify your answer. Method 1 Simplify first. Factor. Divide out common factors. Then multiply. Simplify.
Example 3 Continued Method 2 Multiply first. Multiply. Distribute.
Example 3 Continued Then simplify. Factor. Divide out common factors. Simplify.
Check It Out! Example 3a Multiply . Simplify your answer. Simplify first. Factor. Divide out common factors. Then multiply. Simplify.
Check It Out! Example 3b Multiply . Simplify your answer. Simplify first. Factor. Divide out common factors. Then multiply. p Simplify.
The rules for dividing rational expressions are the same as the rules for dividing fractions. To divide by a rational expression, multiply by its reciprocal.
Example 4A: Dividing by Rational Expressions and Polynomials Divide. Simplify your answer. Write as multiplication by the reciprocal. Multiply the numerators and the denominators. Divide out common factors. Simplify.
Example 4B: Dividing by Rational Expressions and Polynomials Divide. Simplify your answer. Write as multiplication by the reciprocal. Factor. Rewrite one opposite binomial.
Example 4B Continued Divide. Simplify your answer. Divide out common factors. Simplify.
Example 4C: Dividing by Rational Expressions and Polynomials Divide. Simplify your answer. Write the binomial over 1. Write as multiplication by the reciprocal. Multiply the numerators and the denominators.
Example 4C Continued Divide. Simplify your answer. Divide out common factors. Simplify.
Check It Out! Example 4a Divide. Simplify your answer. Write as multiplication by the reciprocal. Multiply the numerators and the denominators. Simplify. There are no common factors.
Check It Out! Example 4b Divide. Simplify your answer. Write as multiplication by the reciprocal. Multiply the numerators and the denominators and cancel common factors. Simplify.
Check It Out! Example 4c Divide. Simplify your answer. Write the trinomial over 1. Write as multiplication by the reciprocal. Multiply.
Check It Out! Example 4c Continued Divide. Simplify your answer. Factor. Divide out common factors. Simplify.
Example 5: Application Tanya is playing a carnival game. She needs to pick 2 cards out of a deck without looking. The deck has cards with numbers and cards with letters. There are 6 more letter cards than number cards. a. Write and simplify an expression that represents the probability that Tanya will pick 2 number cards. Let x = the number cards. Write expressions for the number of each kind of card and for the total number of items. number + letter = total x + x + 6 = 2x + 6
Example 5 Continued The probability of picking a number card and then another numbercard is the product of the probabilities of the individual events. 2nd pick number 1st pick number 1st pick: total items 2nd pick: total items
Use the order of operations to simplify. Example 5 Continued b. What is the probability that Tanya picks 2 number cards if there are 25 number cards in the deck before her first pick? Round your answer to the nearest hundredth. Use the probability of picking two number cards. Since x represents the number of number cards, substitute 25 for x. P(number, number) Substitute. Use the order of operations to simplify.
Example 5 Continued The probability of picking 2 number cards if there are 25 number cards in the deck of 51 before the first pick is approximately 0.19.
Check It Out! Example 5 What if…? There are 50 blue items in the bag before Marty’s first pick. What is the probability that Marty picks two blue items? Use the probability of picking two blue items. Since x represents the number of blue items, substitute 50 for x. P(blue, blue) Substitute. Use the order of operations to simplify. The probability of picking two blue items is about 0.23.
Lesson Quiz: Part I Multiply. Simplify your answer. 1. 2 2. 3. Divide. Simplify your answer. 4. 5.
Lesson Quiz: Part II 6. A bag contains purple and green toy cars. There are 9 more purple cars than green cars. a. Write and simplify an expression to represent the probability that someone will pick a purple car and a green car. b. What is the probability of someone picking a purple car and a green car if there are 12 green cars before the first pick? Round to the nearest hundredth. 0.24