# Solving Linear Equations and 2 1 Inequalities Solving

• Slides: 32

Solving Linear Equations and 2 -1 Inequalities Solving Linear Equations and Inequalities Warm Up Lesson Presentation Holt Algebra 22

2 -1 Solving Linear Equations and Inequalities *Warm Up Simplify each expression. 2. –(w – 2) 1. 2 x + 5 – 3 x 3. 6(2 – 3 g) Graph on a number line. 4. t > – 2 – 4 – 3 – 2 – 1 0 1 2 3 4 5 5. Is 2 a solution of the inequality – 2 x < – 6? Explain. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Objectives Solve linear equations using a variety of methods. Solve linear inequalities. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Vocabulary equation solution set of an equation linear equation in one variable identify contradiction inequality Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities An equation is a mathematical statement that two expressions are equivalent. The solution set of an equation is the value or values of the variable that make the equation true. A linear equation in one variable can be written in the form ax = b, where a and b are constants and a ≠ 0. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Linear Equations in One variable 4 x = 8 3 x – = – 9 2 x – 5 = 0. 1 x +2 Nonlinear Equations + 1 = 32 + 1 = 41 3 – 2 x = – 5 Notice that the variable in a linear equation is not under a radical sign and is not raised to a power other than 1. The variable is also not an exponent and is not in a denominator. Solving a linear equation requires isolating the variable on one side of the equation by using the properties of equality. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities To isolate the variable, perform the inverse or opposite of every operation in the equation on both sides of the equation Do inverse operations in the reverse order of operations. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Example 1: Consumer Application The local phone company charges \$12. 95 a month for the first 200 of air time, plus \$0. 07 for each additional minute. If Nina’s bill for the month was \$14. 56, how many additional minutes did she use? Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Example 1 Continued Let m represent the number of additional minutes that Nina used. Model monthly plus charge 12. 95 Holt Algebra 2 + additional minute charge times 0. 07 * number of additional = total charge minutes m = 14. 56

2 -1 Solving Linear Equations and Inequalities Example 1 Continued Solve. 12. 95 + 0. 07 m = 14. 56 – 12. 95 0. 07 m = 0. 07 1. 61 0. 07 Subtract 12. 95 from both sides. Divide both sides by 0. 07. m = 23 Nina used 23 additional minutes. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Check It Out! Example 1 Stacked cups are to be placed in a pantry. One cup is 3. 25 in. high and each additional cup raises the stack 0. 25 in. How many cups fit between two shelves 14 in. apart? Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 1 Continued Let c represent the number of additional cups needed. You fill in the rest of the information. Model additional cup one cup plus height + Holt Algebra 2 times * number of total additional = height cups c =

2 -1 Solving Linear Equations and Inequalities Check It Out! Example 1 Continued Solve. 3. 25 + 0. 25 c = 14. 00 – 3. 25 0. 25 c = 10. 75 0. 25 Subtract 3. 25 from both sides. Divide both sides by 0. 25. c = 43 44 cups fit between the 14 in. shelves. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities *Example 2: Solving Equations with the Distributive Property Solve 4(m + 12) = – 36 Method 1 Holt Algebra 2 Divide both sides by 4 first, then solve.

2 -1 Solving Linear Equations and Inequalities * Example 2 Continued Solve 4(m + 12) = – 36 Method 2 Holt Algebra 2 Distribute the 4 first, then solve.

2 -1 Solving Linear Equations and Inequalities * Check your answer Example 2 Continued 4(m + 12) = – 36 4(____+ 12) 4(___) ___ Holt Algebra 2 – 36

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 2 a Solve 3(2 – 3 p) = 42. Method 1 Divide by 3 first. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 2 a Continued Solve 3(2 – 3 p) = 42. Method 2 Distribute the 3 first. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 2 b Solve – 3(5 – 4 r) = – 9. Choose your method; either divide by -3 or distribute -3. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities If there are variables on both sides of the equation: (1) simplify each side (2) collect all variable terms on one side and all constants terms on the other side (3) isolate the variables as you did in the previous problems. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Example 3: Solving Equations with Variables on Both Sides Solve 3 k– 14 k + 25 = 2 – 6 k – 12. Simplify each side by combining – 11 k + 25 = – 6 k – 10 like terms. +11 k Collect variables on the right side. Add. 25 = 5 k – 10 Collect constants on the left side. +10 + 10 35 = 5 k 5 5 7=k Holt Algebra 2 Isolate the variable.

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 3 Solve 3(w + 7) – 5 w = w + 12. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities You have solved equations that have a single solution. Equations may also have infinitely many solutions or no solution. An equation that is true for all values of the variable, such as x = x, is an identity. An equation that has no solutions, such as 3 = 5, is a contradiction because there are no values that make it true. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Example 4 A: Identifying Identities and Contractions Solve 3 v – 9 – 4 v = –(5 + v). The equation has no solution. The solution set is the empty set, which is represented by the symbol. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities *Example 4 B: Identifying Identities and Contractions Solve 2(x – 6) = – 5 x – 12 + 7 x. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 4 a Solve 5(x – 6) = 3 x – 18 + 2 x. The equation has no solution. The solution set is the empty set, which is represented by the symbol. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 4 b Solve 3(2 – 3 x) = – 7 x – 2(x – 3). Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities An inequality is a statement that compares two expressions by using the symbols <, >, ≤, ≥, or ≠. The graph of an inequality is the solution set, the set of all points on the number line that satisfy the inequality. The properties of equality are true for inequalities, with one important difference. If you multiply or divide both sides by a negative number, you must reverse the inequality symbol. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities These properties also apply to inequalities expressed with >, ≥, and ≤. Holt Algebra 2

2 -1 Solving Linear Equations and Inequalities Example 5: Solving Inequalities Solve and graph 8 a – 2 ≥ 13 a + 8 – 13 a – 5 a – 2 ≥ 8 +2 +2 – 5 a ≥ 10 – 5 a ≤ 10 – 5 a ≤ – 2 Holt Algebra 2 Subtract 13 a from both sides. Add 2 to both sides. Divide both sides by – 5 and reverse the inequality. – 10 – 9 – 8 – 7 – 6 – 5 – 4 – 3 – 2 – 1

2 -1 Solving Linear Equations and Inequalities * Check It Out! Example 5 Solve and graph x + 8 ≥ 4 x + 17. Holt Algebra 2