1 / 12

Solving Inequalities Using Addition and Subtraction

Solving Inequalities Using Addition and Subtraction. Lessons 3-1 and 3-2. Addition Property of Inequalities – If any number is ________________ to each side of a true ___________________, the resulting inequality is also ________________. Example A 3 -5 3 + 2 - 5 + 2

jonco
Download Presentation

Solving Inequalities Using Addition and Subtraction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Solving Inequalities Using Addition and Subtraction Lessons 3-1 and 3-2

  2. Addition Property of Inequalities – If any number is ________________ to each side of a true ___________________, the resulting inequality is also ________________. Example A 3 -5 3 + 2 -5 + 2 _____ _____ added equation true > > 5 > -3

  3. Example B n – 12 < 65 n – 12 +12 < 65 + 12 Work inequalities horizontally. n < 77 This is called “set-builder notation.” It would be read as “n such that n is less than 77.” { n│ n < 77} “Open” circle (unshaded) at 77, then shade to the left (because it is “less than”). This means any number smaller than 77 is a solution to the inequality

  4. Example C k – 4 > 10 Adding the same number to each side of an inequality does not change the direction of the inequality. k – 4 + 4 > 10 + 4 k > 14 Set builder notation is always placed inside of braces. {k │k > 14 }

  5. Graphing on the Number Line (A Quick Review) Great than or equal to (≥) and less than or equal to (≤) uses a filled in (or closed) circle then shade the line in the same direction the symbol is pointing. Great than (>) and less than (<) uses an unshaded (or open) circle then shade the line in the same direction the symbol is pointing.

  6. 12 + 9 ≥ y – 9 + 9 Add y 21 ≥ y 21 ≤ y│y≤ 21

  7. Subtraction Property of Inequality – If any number is ___________ from ________ side of a true inequality, the resulting inequality is also _______. subtracted each true q + 23 - 23 14 - 23 < subtract -9 q < {q│q < –9}

  8. m + 15 – 15 ≤ 13 - 15 x – 2 < 8 x – 2 + 2 < 8 + 2 m ≤ –2 { m │ m ≤ –2 } x < 10 { x │ x < 10} The symmetric property does not work for inequalities, so if you “turn the inequality around” you have to change the sign, too.

  9. Variables on Both Sides Example H 12n – 4 ≤ 13n 12n –12n – 4 ≤ 13n –12n – 4 ≤ n n ≥ – 4 { n │n ≥ – 4}

  10. Example I 3p – 6 ≥ 4p 3p – 3p – 6 ≥ 4p – 3p – 6 ≥ p p ≤ – 6 { p │ p ≤ – 6 }

  11. Example J 5x + 4 > 4x + 10 5x + 4 – 4x > 4x – 4x + 10 x + 4 > 10 x + 4 – 4 > 10 – 4 x > 6 {x│x > 6 }

  12. Ex. K Seven time a number is greater than 6 times that number minus two. Ex. L Three times a number is less than two times that number plus 5. 3x < 2x + 5 7x > 6x – 2 3x – 2x < 2x – 2x+ 5 7x – 6x > 6x – 6x – 2 x < 5 x > – 2

More Related