Algebra 2 Interactive Chalkboard Copyright © by The McGraw-Hill Companies, Inc. Send all inquiries to: GLENCOE DIVISION Glencoe/McGraw-Hill 8787 Orion Place Columbus, Ohio 43240 Lesson 1-1 Expressions and Formulas Lesson 1-2 Properties of Real Numbers Lesson 1-3 Solving Equations Lesson 1-4 Solving Absolute Value Equations Lesson 1-5 Solving Inequalities Lesson 1-6 Solving Compound and Absolute Value Inequalities Example 1 Simplify an Expression Example 2 Evaluate an Expression Example 3 Expression Containing a Fraction Bar Example 4 Use a Formula Find the value of First, subtract 2 from 7. Then cube 5. Multiply 125 by 3. Subtract 375 from 384. Finally, divide 9 by 3. Answer: The value is 3. Find the value of Answer: 9 Evaluate if and Replace s with 2 and t with 3.4. Find 22. Subtract 3.4 from 4. Multiply 3.4 and 0.6. Subtract 2.04 from 2. Answer: The value is –0.04. Evaluate Answer: –110 if and Evaluate if , , and Evaluate the numerator and the denominator separately. Multiply 40 by –2. Simplify the numerator and the denominator. Then divide. Answer: The value is –9. Evaluate Answer: –23 if and Find the area of a trapezoid with base lengths of 13 meters and 25 meters and a height of 8 meters. Area of a trapezoid Replace h with 8, b1 with 13, and b2 with 25. Add 13 and 25. Multiply 8 by . Multiply 4 and 38. Answer: The area of the trapezoid is 152 square meters. The formula for the volume V of a pyramid is where B represents the area of the base and h is the height of the pyramid. Find the volume of the pyramid shown below. Answer: 50 cm3 , Example 1 Classify Numbers Example 2 Identify Properties of Real Numbers Example 3 Additive and Multiplicative Inverses Example 4 Use the Distributive Property to Solve a Problem Example 5 Simplify an Expression Name the sets of numbers to which Answer: rationals (Q) and reals (R) belongs. Name the sets of numbers to which belongs. The bar over the 9 indicates that those digits repeat forever. Answer: rationals (Q) and reals (R) Name the sets of numbers to which belongs. lies between 2 and 3 so it is not a whole number. Answer: irrationals (I) and reals (R) Name the sets of numbers to which belongs. Answer: naturals (N), wholes (W), integers (Z), rationals (Q) and reals (R) Name the sets of numbers to which –23.3 belongs. Answer: rationals (Q) and reals (R) Name the sets of numbers to which each number belongs. a. Answer: rationals (Q) and reals (R) b. Answer: rationals (Q) and reals (R) c. Answer: irrationals (I) and reals (R) d. Answer: naturals (N), wholes (W), integers (Z) rationals (Q) and reals (R) e. 32.1 Answer: rationals (Q) and reals (R) Name the property illustrated by . The Additive Inverse Property says that a number plus its opposite is 0. Answer: Additive Inverse Property Name the property illustrated by . The Distributive Property says that you multiply each term within the parentheses by the first number. Answer: Distributive Property Name the property illustrated by each equation. a. Answer: Identity Property of Addition b. Answer: Inverse Property of Multiplication Identify the additive inverse and multiplicative inverse for –7. Since –7 + 7 = 0, the additive inverse is 7. Since the multiplicative inverse is Answer: The additive inverse is 7, and the multiplicative inverse is Identify the additive inverse and multiplicative inverse for Since Since . the additive inverse is the multiplicative inverse is Answer: The additive inverse is inverse is 3. and the multiplicative Identify the additive inverse and multiplicative inverse for each number. a. 5 Answer: additive: –5; multiplicative: b. Answer: additive: multiplicative: Postage Audrey went to a post office and bought eight 34-cent stamps and eight 21-cent postcard stamps. How much did Audrey spend altogether on stamps? There are two ways to find the total amount spent on stamps. Method 1 Multiply the price of each type of stamp by 8 and then add. Method 2 Add the prices of both types of stamps and then multiply the total by 8. Answer: Audrey spent a total of $4.40 on stamps. Notice that both methods result in the same answer. Chocolate Joel went to the grocery store and bought 3 plain chocolate candy bars for $0.69 each and 3 chocolatepeanut butter candy bars for $0.79 each. How much did Joel spend altogether on candy bars? Answer: $4.44 Simplify Distributive Property Multiply. Commutative Property (+) Distributive Property Answer: Simplify. Simplify Answer: . Example 1 Verbal to Algebraic Expression Example 2 Algebraic to Verbal Sentence Example 3 Identify Properties of Equality Example 4 Solve One-Step Equations Example 5 Solve a Multi-Step Equation Example 6 Solve for a Variable Example 7 Apply Properties of Equality Example 8 Write an Equation Write an algebraic expression to represent 3 more than a number. Answer: Write an algebraic expression to represent 6 times the cube of a number. Answer: Write an algebraic expression to represent the square of a number decreased by the product of 5 and the same number. Answer: Write an algebraic expression to represent twice the difference of a number and 6. Answer: Write an algebraic expression to represent each verbal expression. a. 6 more than a number Answer: b. 2 less than the cube of a number Answer: c. 10 decreased by the product of a number and 2 Answer: d. 3 times the difference of a number and 7 Answer: Write a verbal sentence to represent Answer: The sum of 14 and 9 is 23. . Write a verbal sentence to represent Answer: Six is equal to –5 plus a number. . Write a verbal sentence to represent Answer: Seven times a number minus 2 is 19. . Write a verbal sentence to represent each equation. a. Answer: The difference between 10 and 3 is 7. b. Answer: Five is equal to the sum of 2 and a number. c. Answer: Three times a number plus 2 equals 11. Name the property illustrated by the statement if xy = 28 and x = 7, then 7y = 28. Answer: Substitution Property of Equality Name the property illustrated by the statement . Answer: Reflexive Property of Equality Name the property illustrated by each statement. a. Answer: Symmetric Property of Equality b. Answer: Transitive Property of Equality Solve . Check your solution. Original equation Add 5.48 to each side. Simplify. Check: Original equation Substitute 5.5 for s. Simplify. Answer: The solution is 5.5. Solve . Check your solution. Original equation Multiply each side by multiplicative inverse of Simplify. the Check: Original equation Substitute 36 for t. Simplify. Answer: The solution is 36. Solve each equation. Check your solution. a. Answer: –2 b. Answer: 15 Solve Original equation Distributive and Substitution Properties Commutative, Distributive, and Substitution Properties Addition and Substitution Properties Division and Substitution Properties Answer: The solution is –19. Solve Answer: –6 Geometry The area of a trapezoid is where A is the area, b1 is the length of one base, b2 is the length of the other base, and h is the height of the trapezoid. Solve the formula for h. Area of a trapezoid Multiply each side by 2. Simplify. Divide each side by Simplify. . Answer: Geometry The perimeter of a rectangle is where P is the perimeter, is the length, and w is the width of the rectangle. Solve the formula for w. w Answer: Multiple-Choice Test Item what is the value of A B C D Read the Test Item You are asked to find the value of the expression 4g – 2. Your first thought might be to find the value of g and then evaluate the expression using this value. However, you are not required to find the value of g. Instead, you can use the Subtraction Property of Equality on the given equation to find the value of 4g – 2. Solve the Test Item Original equation Subtract 7 from each side. Answer: B Multiple-Choice Test Item what is the value of A 12 B 6 C –6 D –12 Answer: D Home Improvement Carl wants to replace the 5 windows in the 2nd-story bedrooms of his home. His neighbor Will is a carpenter and he has agreed to help install them for $250. If Carl has budgeted $1000 for the total cost, what is the maximum amount he can spend on each window? Explore Let c represent the cost of each window. Plan The number the cost the cost for a the total of windows times per window plus carpenter cost. equals 5 c + 250 = 1000 Solve Original equation Subtract 250 from each side. Simplify. Divide each side by 5. Simplify. Answer: Carl can afford to spend $150 on each window. Examine The total cost to replace five windows at $150 each is 5(150) or $750. Add the $250 cost of the carpenter to that, and the total bill to replace the windows is 750 + 250 or $1000. Thus, the answer is correct. Home Improvement Kelly wants to repair the siding on her house. Her contractor will charge her $300 plus $150 per square foot of siding. How much siding can she repair for $1500? Answer: 8 ft2 Example 1 Evaluate an Expression with Absolute Value Example 2 Solve an Absolute Value Equation Example 3 No Solution Example 4 One Solution Evaluate Replace x with 4. Simplify –2(4) first. Subtract 8 from 6. Add. Answer: The value is 4.7. Evaluate Answer: –13.7 Solve Case 1 Check your solutions. or Case 2 Check: Answer: The solutions are 5 or –11. Thus, the solution set is Solve Answer: Check your solutions. Solve Original equation Subtract 5 from each side. This sentence is never true. Answer: The solution set is . Solve Answer: Solve Case 1 Check your solutions. or Case 2 There appear to be two solutions, 11 or Check: Answer: Since , the only solution is 11. The solution set is {11}. Solve Answer: {6} Example 1 Solve an Inequality Using Addition or Subtraction Example 2 Solve an Inequality Using Multiplication or Division Example 3 Solve a Multi-Step Inequality Example 4 Write an Inequality Solve number line. Graph the solution set on a Original inequality Subtract 4y from each side. Simplify. Subtract 2 from each side. Simplify. Rewrite with y first. Answer: Any real number greater than –5 is a solution of this inequality. A circle means that this point is not included in the solution set. Solve number line. Answer: Graph the solution set on a Solve number line. Graph the solution set on a Original inequality Divide each side by –0.3, reversing the inequality symbol. –40 p p –40 Simplify. Rewrite with p first. Answer: The solution set is A dot means that this point is included in the solution set. Solve number line. Answer: Graph the solution set on a Solve Graph the solution set on a number line. Original inequality Multiply each side by 2. Add –x to each side. Divide each side by –3, reversing the inequality symbol. Answer: The solution set is graphed below. and is Solve number line. Answer: Graph the solution set on a Consumer Costs Alida has at most $10.50 to spend at a convenience store. She buys a bag of potato chips and a can of soda for $1.55. If gasoline at this store costs $1.35 per gallon, how many gallons of gasoline can Alida buy for her car, to the nearest tenth of a gallon? Explore Let the number of gallons of gasoline that Alida buys. Plan The total cost of the gasoline is 1.35g. The cost of the chips and soda plus the total cost of the gasoline must be less than or equal to $10.50. Write an inequality. The cost of chips & soda 1.55 Solve plus the cost of gasoline is less than or equal to $10.50. + 1.35g 10.50 Original inequality Subtract 1.55 from each side. Simplify. Divide each side by 1.35. Simplify. Answer: Alida can buy up to 6.6 gallons of gasoline for her car. Examine Since is actually greater than 6.6, Alida will have enough money if she gets no more than 6.6 gallons of gasoline. Rental Costs Jeb wants to rent a car for his vacation. Value Cars rents cars for $25 per day plus $0.25 per mile. How far can he drive for one day if he wants to spend no more that $200 on car rental? Answer: up to 700 miles Example 1 Solve an “and” Compound Inequality Example 2 Solve an “or” Compound Inequality Example 3 Solve an Absolute Value Inequality (<) Example 4 Solve an Absolute Value Inequality (>) Example 5 Solve a Multi-Step Absolute Value Inequality Example 6 Write an Absolute Value Inequality Solve Graph the solution set on a number line. Method 1 Write the compound inequality using the word and. Then solve each inequality. and Method 2 Solve both parts at the same time by adding 2 to each part. Then divide each part by 3. Graph the solution set for each inequality and find their intersection. y4 Solve Graph the solution set on a number line. Answer: Solve or Graph the solution set on a number line. Solve each inequality separately. or Answer: The solution set is Solve Graph the solution set on a number line. Answer: Solve Graph the solution set on a number line. You can interpret to mean that the distance between d and 0 on a number line is less than 3 units. To make true, you must substitute numbers for d that are fewer than 3 units from 0. Notice that the graph of is the same as the graph of d > –3 and d < 3. All of the numbers between –3 and 3 are less than 3 units from 0. Answer: The solution set is Solve Answer: Graph the solution set on a number line. Solve Graph the solution set on a number line. You can interpret to mean that the distance between d and 0 on a number line is greater than 3 units. To make true, you must substitute values for d that are greater than 3 units from 0. Notice that the graph of is the same as the graph of All of the numbers not between –3 and 3 are greater than 3 units from 0. Answer: The solution set is Solve Answer: Graph the solution set on a number line. Solve Graph the solution set on a number line. is equivalent to Solve each inequality. or Answer: The solution set is . Solve Graph the solution set on a number line. Answer: Housing According to a recent survey, the average monthly rent for a one-bedroom apartment in one city is $750. However, the actual rent for any given onebedroom apartment might vary as much as $250 from the average. Write an absolute value inequality to describe this situation. Let the actual monthly rent. The rent for an apartment can differ from the average Answer: by as much as $250. 250 Solve the inequality monthly rent. to find the range of Rewrite the absolute value inequality as a compound inequality. Then solve for r. –r –r r Answer: The solution set is The actual rent falls between $500 and $1000, inclusive. Health The average birth weight of a newborn baby is 7 pounds. However, this weight can vary by as much as 4.5 pounds. a. Write an absolute value inequality to describe this situation. Answer: b. Solve the inequality to find the range of birth weights for newborn babies. Answer: The birth weight of a newborn baby will fall between 2.5 pounds and 11.5 pounds, inclusive. Explore online information about the information introduced in this chapter. Click on the Connect button to launch your browser and go to the Algebra 2 Web site. At this site, you will find extra examples for each lesson in the Student Edition of your textbook. When you finish exploring, exit the browser program to return to this presentation. If you experience difficulty connecting to the Web site, manually launch your Web browser and go to www.algebra2.com/extra_examples. Click the mouse button or press the Space Bar to display the answers. Click the mouse button or press the Space Bar to display the answers. Click the mouse button or press the Space Bar to display the answers. Click the mouse button or press the Space Bar to display the answers. Click the mouse button or press the Space Bar to display the answers. Click the mouse button or press the Space Bar to display the answers. End of Custom Shows WARNING! Do Not Remove This slide is intentionally blank and is set to auto-advance to end custom shows and return to the main presentation.