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Mathematics LibreTexts

9.3: Quadratic Formula

  • Anonymous
  • LibreTexts

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Learning Objectives
  • Solve quadratic equations with real solutions using the quadratic formula.

The Quadratic Formula

In this section, we will develop a formula that gives the solutions to any quadratic equation in standard form. To do this, we begin with a general quadratic equation in standard form and solve for x by completing the square. Here a, b, and c are real numbers and a≠0:

ax2+bx+c=0ax2+bx+ca=0aDividebothsidesbya.x2+bax+ca=0Subtractcafrombothsides.x2+bax=ca

Determine the constant that completes the square: take the coefficient of x, divide it by 2, and then square it.

(b/a2)2=(b2a)2=b24a2

Add this to both sides of the equation and factor.

Solve by extracting roots.

This derivation gives us a formula that solves any quadratic equation in standard form. Given ax2+bx+c=0, where a, b, and c are real numbers and a≠0, then the solutions can be calculated using the quadratic formula:

Consider the quadratic equation 2x27x+3=0. It can be solved by factoring as follows:

2x1=0 or x3=02x=1x=3x=12

The solutions are 1/2 and 3. The following example shows that we can obtain the same results using the quadratic formula.

Example 9.3.1

Solve using the quadratic formula:

2x27x+3=0.

Solution

Begin by identifying a, b, and c as the coefficients of each term.

Substitute these values into the quadratic formula and then simplify.

Separate the “plus or minus” into two equations and simplify each individually.

x=754 or x=7+54x=24x=124x=12x=3

Answer:

The solutions are 1/2 and 3.

Of course, if the quadratic factors, then it is a best practice to solve it by factoring. However, not all quadratic polynomials factor; nevertheless, the quadratic formula provides us with a means to solve such equations.

Example 9.3.2

Solve using the quadratic formula:

5x2+2x1=0.

Solution:

Begin by identifying a, b, and c.

a=5b=2c=1

Substitute these values into the quadratic formula.

Answer:

The solutions are 1±65

Often terms are missing. When this is the case, use 0 as the coefficient.

Example 9.3.3

Solve using the quadratic formula:

x218=0.

Solution:

Think of this equation with the following coefficients:

1x2+0x18=0

Here

a=1b=0c=18

Substitute these values into the quadratic formula.

Answer:

The solutions are ±32

Since the coefficient of x was 0, we could have solved the equation by extracting the roots. As an exercise, solve the previous example using this method and verify that the results are the same.

Example 9.3.4

Solve using the quadratic formula:

9x212x+4=0.

Solution:

In this case,

Substitute these values into the quadratic formula and then simplify.

In this example, notice that the radicand of the square root is 0. This results in only one solution to this quadratic equation. Normally, we expect two solutions. When we find only one solution, the solution is called a double root. If we solve this equation by factoring, then the solution appears twice.

3x2=0 or 3x2=03x=23x=2x=23x=23

Answer: 23, double root

Example 9.3.5

Solve using the quadratic formula:

x2+x+1=0.

Solution:

In this case,

a=1b=1c=1

Substitute these values into the quadratic formula.

The solution involves the square root of a negative number; hence the solutions are not real. This quadratic equation has two non real solutions and will be discussed in further detail as we continue in our study of algebra. For now, simply state that the equation does not have real solutions.

Answer:

No real solutions

Exercise 9.3.1

Solve x22x2=0.

Answer

1±3

It is important to place the quadratic equation in standard form before using the quadratic formula.

Example 9.3.6

Solve using the quadratic formula:

(2x+1)(2x1)=24x+8

Solution:

Begin by using the distributive property to expand the left side and combining like terms to obtain an equation in standard form, equal to 0.

Once the equation is in standard form, identify a, b, and c. Here

Substitute these values into the quadratic formula and then simplify.

Answer:

The solutions are 6±352

Exercise 9.3.2

Solve 3x(x2)=1

Answer

3±233

Key Takeaways

  • Use the quadratic formula to solve any quadratic equation in standard form.
  • To solve any quadratic equation, first rewrite in standard form, ax2+bx+c=0, substitute the appropriate coefficients into the quadratic formula, x=b±b24ac2a, and then simplify.
Exercise 9.3.3 quadratic formula

Identify the coefficients a, b, and c used in the quadratic formula. Do not solve.

  1. x2x+5=0
  2. x23x1=0
  3. 3x210=0
  4. y2+5=0
  5. 5t27t=0
  6. y2+y=0
  7. x2+x=6
  8. 2x2x=15
  9. (3x+1)(2x+5)=19x+4
  10. (4x+1)(2x+1)=16x+4
Answer

1. a=1, b=−1, and c=5

3. a=3, b=0, and c=−10

5. a=5, b=−7, and c=0

7. a=−1, b=1, and c=6

9. a=6, b=−2, and c=1

Exercise 9.3.4 quadratic formula

Solve by factoring and then solve using the quadratic formula. Check answers.

  1. x210x+24=0
  2. x23x18=0
  3. t2+6t+5=0
  4. t2+9t+14=0
  5. 2x27x4=0
  6. 3x2x2=0
  7. 2x2x+3=0
  8. 6x2+x+1=0
  9. y22y+1=0
  10. y21=0
Answer

1. 4, 6

3. −5, −1

5. −1/2, 4

7. −3/2, 1

9. 1, double root

Exercise 9.3.5 quadratic formula

Use the quadratic formula to solve the following.

  1. x26x+4=0
  2. x24x+1=0
  3. x2+2x5=0
  4. x2+4x6=0
  5. t24t1=0
  6. t28t2=0
  7. y2+y+1=0
  8. y23y+2=0
  9. x2+16x62=0
  10. x2+14x46=0
  11. 2t24t3=0
  12. 4t28t1=0
  13. 4y2+12y9=0
  14. 25x2+10x1=0
  15. 3x2+6x+2=0
  16. 5x2+10x+2=0
  17. 9t2+6t11=0
  18. 8t2+8t+1=0
  19. x22=0
  20. x218=0
  21. 9x23=0
  22. 2x25=0
  23. y2+9=0
  24. y2+1=0
  25. 2x2=0
  26. x2=0
  27. 2y2+5y=0
  28. \(−3y^{2] + 7y = 0\)
  29. t2t=0
  30. \(t^{2] + 2 t = 0\)
  31. x20.6x0.27=0
  32. x21.6x0.8=0
  33. y21.4y0.15=0
  34. y23.6y+2.03=0
  35. 12t2+5t+32=0
  36. t2+3t34=0
  37. 3y2+12y13=0
  38. 2y2+13y+12=0
  39. 2x210x+3=4
  40. 3x2+6x+1=8
  41. 2y2=3(y1)
  42. 3y2=5(2y1)
  43. (t+1)2=2t+7
  44. (2t1)2=734t
  45. (x+5)(x1)=2x+1
  46. (x+7)(x2)=3(x+1)
  47. x(x+5)=3(x1)
  48. x(x+4)=7
  49. (5x+3)(5x3)10(x1)=0
  50. (3x+4)(3x1)33x=20
  51. 27y(y+1)+2(3y2)=0
  52. 8(4y2+3)3(28y1)=0
  53. (x+2)22(x+7)=4(x+1)
  54. (x+3)210(x+5)=2(x+1)
Answer

1. 3±5

3. 1±6

5. 2±5

7. 1±52

9. 8±2

11. 2±102

13. 32, double root

15. 3±33

17. 1±233

19. ±2

21. ±13

23. No real solutions

25. 0, double root

27. 0,52

29. 0,1

31. 0.3,0.9

33. 0.1,1.5

35. No real solutions

37. 6±533

39. 5±332

41. 3±334

43. ±6

45. 1±7

47. No real solutions

49. 15, double root

51. 43, 19

53. 1±210

Exercise 9.3.6 discussion board
  1. When talking about a quadratic equation in standard form, ax2+bx+c=0, why is it necessary to state that a≠0? What happens if a is equal to 0?
  2. Research and discuss the history of the quadratic formula and solutions to quadratic equations.
Answer

1. Answers may vary


This page titled 9.3: Quadratic Formula is shared under a CC BY-NC-SA 3.0 license and was authored, remixed, and/or curated by Anonymous via source content that was edited to the style and standards of the LibreTexts platform.

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