Presentation is loading. Please wait.

Presentation is loading. Please wait.

Subtract b from each side. Write original equation. Solve ax + b = c for x. STEP 1 SOLUTION Solve ax +b = c for x. Then use the solution to solve 2x +

Published byNeal Webb Modified over 8 years ago

Similar presentations

Presentation on theme: "Subtract b from each side. Write original equation. Solve ax + b = c for x. STEP 1 SOLUTION Solve ax +b = c for x. Then use the solution to solve 2x +"— Presentation transcript:

1

2 Subtract b from each side. Write original equation. Solve ax + b = c for x. STEP 1 SOLUTION Solve ax +b = c for x. Then use the solution to solve 2x + 5 = 11. Solve a literal equation EXAMPLE 1 x c – b a = ax + b = c ax = c – b Assume a 0. Divide each side by a. =

3 The solution of 2x + 5 = 11 is 3. ANSWER Simplify. Substitute 2 for a, 5 for b, and 11 for c. Solution of literal equation. Use the solution to solve 2x + 5 = 11. STEP 2 Solve a literal equation EXAMPLE 1 11 – 5 2 = x = c – b a =3

4 GUIDED PRACTICE for Example 1 Subtract a from each side. Write original equation. Solve a – bx = c for x. STEP 1 SOLUTION 1. Solve a – bx = c for x. x a – ca – c b = a – bx = c – bx = c – a Assume b 0. Divide each side by – 1. = Solve the literal equation for x. Then use the solution to solve the specific equation

5 GUIDED PRACTICE for Example 1 The solution of 12 – 5x = –3 is 3. ANSWER Simplify. Substitute a for 12, –3 for c, and 5 for b. Solution of literal equation. Use the solution to solve 12 – 5x = –3. STEP 2 12 – (–3) 5 = x = a – c b =3

6 GUIDED PRACTICE for Example 1 Subtract bx from each side. Write original equation. Solve a x = bx + c for x. STEP 1 SOLUTION 2. Solve a x = bx + c for x. c x a – ba – b = a x = bx + c a x – bx = c Assume a 0. Divide each = side by a – b.

7 GUIDED PRACTICE for Example 1 The solution of 11x = 6x + 20. is 4. ANSWER Simplify. Solution of literal equation. Use the solution to solve 11x = 6x + 20. STEP 2 20 11 – 6 = x = c a – b =4 Substitute a for 11, 20 for c, and 6 for b.

8 Divide each side by 2. Write original equation. Write 3x + 2y = 8 so that y is a function of x. EXAMPLE 2 Rewrite an equation Subtract 3x from each side. 3x + 2y = 8 2y2y = 8 – 3x 3 2 y=4 – x

9 Multiply each side by 2. Write original formula. SOLUTION Use the rewritten formula to find the height of the triangle shown, which has an area of 64.4 square meters. b. Solve the formula for the height h. a. EXAMPLE 3 Solve and use a geometric formula The area A of a triangle is given by the formula A = bh where b is the base and h is the height. 1 2 a. bh 1 2 A = 2A2A =

10 Substitute 64.4 for A and 14 for b. Write rewritten formula. Substitute 64.4 for A and 14 for b in the rewritten formula. b. Divide each side by b. EXAMPLE 3 Solve and use a geometric formula 2A2A b h = = 2(64.4) 14 = 9.2 Simplify. ANSWERThe height of the triangle is 9.2 meters. h 2A2A b =

11 GUIDED PRACTICE for Examples 2 and 3 Divide each side by 4. Write original equation. 3. Write 5x + 4y = 20 so that y is a function of x. Subtract 5x from each side. 5x + 4y = 20 4y4y = 20 – 5x 5 4 y=5 – x

12 GUIDED PRACTICE for Examples 2 and 3 Divide each side by 2. Write original equation. Subtract 2l from each side. a. p = 2l + 2w The perimeter P of a rectangle is given by the formula P = 2l + 2w where l is the length and w is the width. a. Solve the formula for the width w. 4. p – 2l = 2w p – 2l 2 = w SOLUTION

13 GUIDED PRACTICE for Examples 2 and 3 Simplify. Write original equation. Substitute 19.2 for P and 7.2 for l. Substitute 19.2 for P and 7.2 for l in the rewritten formula b. w = p –2lp –2l 2 19.2 – 2 (7.2) 2 = = 2.4 The width of the rectangle is 2.4 feet

14 EXAMPLE 4 Solve a multi-step problem You are visiting Toronto, Canada, over the weekend. A website gives the forecast shown. Find the low temperatures for Saturday and Sunday in degrees Fahrenheit. Use the formula C = (F – 32) where C is the temperature in degrees Celsius and F is the temperature in degrees Fahrenheit. 5 9 Temperature

15 Simplify. Write original formula. SOLUTION EXAMPLE 4 Solve a multi-step problem Multiply each side by, the reciprocal of. 9 5 5 9 Add 32 to each side. STEP 1 Rewrite the formula. In the problem,degrees Celsius are given and degrees Fahrenheit need to be calculated. The calculations will be easier if the formula is written so that F is a function of C. (F – 32) 5 9 C = F – 32C 9 5 = 9 5 C + 32 = F. (F – 32) 9 5 5 9 C 9 5 =

16 EXAMPLE 4 Solve a multi-step problem ANSWER 9 5 = Therewritten formula is F C + 32.

17 The low for Saturday is 57.2°F. ANSWER = 25.2 + 32 Saturday ( low of 14°C) Find the low temperatures for Saturday and Sunday in degrees Fahrenheit. EXAMPLE 4 Solve a multi-step problem STEP 2 Sunday ( low of 10°C) = (14) + 32 9 5 = (10) + 32 9 5 = 18 + 32 = 57.2= 50 C + 32 9 5 F = F 9 5 = The low for Sunday is 50°F. ANSWER

18 GUIDED PRACTICE for Example 4 STEP 1 Rewrite the formula. In the problem,degrees Celsius are given and degrees Fahrenheit need to be calculated. The calculations will be easier if the formula is written so that F is a function of C. Use the information in Example 4 to find the high temperatures for Saturday and Sunday in degrees Fahrenheit. 5.

19 GUIDED PRACTICE for Example 4 ANSWER 9 5 = Therewritten formula is F C + 32. Simplify. Write original formula. Add 32 to each side. (F – 32) 5 9 C = F – 32C 9 5 = 9 5 C + 32 = F. (F – 32) 9 5 5 9 C 9 5 = Multiply each side by, the reciprocal of. 9 5 5 9

20 GUIDED PRACTICE for Example 4 The High for Saturday is 71.6°F. ANSWER = 39.6 + 32 Saturday ( High of 22°C) Find the high temperatures for Saturday and Sunday in degrees Fahrenheit. STEP 2 Sunday ( High of 16°C ) = (22)+ 32 9 5 = (16) + 32 9 5 = 28.8 + 32 = 71.6 = 60.8 C + 32 9 5 F = F 9 5 = The High for Sunday is 60.8°F. ANSWER

Download ppt "Subtract b from each side. Write original equation. Solve ax + b = c for x. STEP 1 SOLUTION Solve ax +b = c for x. Then use the solution to solve 2x +"

Similar presentations

Do Now 10/15/10 Take out HW from last night.  Textbook p.179-181 #4-36 even Copy HW in your planner.  Textbook p. 187 #4-30 even  “Pop” Quiz sections.

Do Now 10/15/10 Take out HW from last night.  Textbook p #4-36 even Copy HW in your planner.  Textbook p. 187 #4-30 even  “Pop” Quiz sections.
Do Now: Pass out calculators.

Do Now: Pass out calculators.
Example 1 Solve ax b c for x. Then use the solution to solve Solve a literal equation + = += 2x 5 11. SOLUTION STEP 1 Solve ax b c for x. += ax b c Write.

Example 1 Solve ax b c for x. Then use the solution to solve Solve a literal equation + = += 2x SOLUTION STEP 1 Solve ax b c for x. += ax b c Write.
( ) EXAMPLE 3 Solve ax2 + bx + c = 0 when a = 1

( ) EXAMPLE 3 Solve ax2 + bx + c = 0 when a = 1
solution If a quadratic equation is in the form ax 2 + c = 0, no bx term, then it is easier to solve the equation by finding the square roots. Solve.

solution If a quadratic equation is in the form ax 2 + c = 0, no bx term, then it is easier to solve the equation by finding the square roots. Solve.
EXAMPLE 1 Solve quadratic equations Solve the equation. a. 2x 2 = 8 SOLUTION a. 2x 2 = 8 Write original equation. x 2 = 4 Divide each side by 2. x = ±

EXAMPLE 1 Solve quadratic equations Solve the equation. a. 2x 2 = 8 SOLUTION a. 2x 2 = 8 Write original equation. x 2 = 4 Divide each side by 2. x = ±
Solve an equation with variables on both sides

Solve an equation with variables on both sides
EXAMPLE 1 Solve a quadratic equation having two solutions Solve x 2 – 2x = 3 by graphing. STEP 1 Write the equation in standard form. Write original equation.

EXAMPLE 1 Solve a quadratic equation having two solutions Solve x 2 – 2x = 3 by graphing. STEP 1 Write the equation in standard form. Write original equation.
Solve a multi-step problem

Solve a multi-step problem
Solve an absolute value equation EXAMPLE 2 SOLUTION Rewrite the absolute value equation as two equations. Then solve each equation separately. x – 3 =

Solve an absolute value equation EXAMPLE 2 SOLUTION Rewrite the absolute value equation as two equations. Then solve each equation separately. x – 3 =
Solve an equation using subtraction EXAMPLE 1 Solve x + 7 = 4. x + 7 = 4x + 7 = 4 Write original equation. x + 7 – 7 = 4 – 7 Use subtraction property of.

Solve an equation using subtraction EXAMPLE 1 Solve x + 7 = 4. x + 7 = 4x + 7 = 4 Write original equation. x + 7 – 7 = 4 – 7 Use subtraction property of.
Solve an “and” compound inequality

Solve an “and” compound inequality
Solve for unknown measures

Solve for unknown measures
Divide each side by 2. Write original equation. Write 3x + 2y = 8 so that y is a function of x. EXAMPLE 2 Rewrite an equation Subtract 3x from each side.

Divide each side by 2. Write original equation. Write 3x + 2y = 8 so that y is a function of x. EXAMPLE 2 Rewrite an equation Subtract 3x from each side.
EXAMPLE 1 Collecting Like Terms x + 2 = 3x x + 2 –x = 3x – x 2 = 2x 1 = x Original equation Subtract x from each side. Divide both sides by 2. 2 2 2x2x.

EXAMPLE 1 Collecting Like Terms x + 2 = 3x x + 2 –x = 3x – x 2 = 2x 1 = x Original equation Subtract x from each side. Divide both sides by x2x.
Tuesday, December 3 rd 2013 Objective: SWBAT solve a literal equation by isolating a specific variable. SWBAT solve a literal equation by isolating a specific.

Tuesday, December 3 rd 2013 Objective: SWBAT solve a literal equation by isolating a specific variable. SWBAT solve a literal equation by isolating a specific.
EXAMPLE 1 Identify direct variation equations

EXAMPLE 1 Identify direct variation equations
EXAMPLE 5 Solve a multi-step problem BANNER DIMENSIONS You are making banners to hang during school spirit week. Each banner requires 16.5 square feet.

EXAMPLE 5 Solve a multi-step problem BANNER DIMENSIONS You are making banners to hang during school spirit week. Each banner requires 16.5 square feet.
Solve a radical equation

Solve a radical equation
Warm-Up #2 Simplify the expression. 2. –6(m – 9) + 14m – 20

Warm-Up #2 Simplify the expression. 2. –6(m – 9) + 14m – 20

Similar presentations

Ads by Google