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Algebraic Expressions

Algebraic Expressions. Education's purpose is to replace an empty mind with an open one. Malcolm Forbes. Expressions. Math expressions represent a convenient way to translate verbal expressions. What is the area of a rectangle?. Length times Width

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Algebraic Expressions

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  1. Algebraic Expressions

  2. Education's purpose is to replace an empty mind with an open one. Malcolm Forbes

  3. Expressions Math expressions represent a convenient way to translate verbal expressions

  4. What is the area of a rectangle? Length times Width If the length is 3 meters and the width is 2 meters, what is the area? A = L x W A = 3 x 2 = 6 m2 A, L and W are the variables. It is any letter that represents an unknown number.

  5. Algebraic Expression An algebraic expression is a quantity that contains numbers and variables. x + y , 3a2  a , 3x + 2y  z Terms A term is a number, a variable, or a product of numbers and variables.

  6. Components of an Algebraic Expression • Constant term: fancy name for a number • Variable term: terms with letters • Example: 3xy – 4z + 17 • Variable expression with 3 terms: • 3xy, -4z, 17 • 2 variable terms and 1 constant term

  7. Variable Terms • Consist of two parts • The variable(letter) part • The number part • Example: • 2xy has a coefficient of 2 • -6j has a coefficient of –6 • W has a coefficient of 1

  8. In expressions, there are many different ways to write multiplication. • 1) ab • 2) a • b • 3) a(b) or (a)b • 4) (a)(b) • 5) a x b We are not going to use the multiplication symbol any more. Why?

  9. Division, on the other hand, is written as: 1) 2) x ÷ 3

  10. Example of evaluating an expression. Evaluate 3xy – 2x + 7y when x = 2 and y = 3 3(2)(3) – 2(2) + 7(3) 18 – 4 + 21 14 + 21 35 The value of the expression is 35.

  11. Word Phrases as Algebraic Expressions

  12. Word Phrases as Algebraic Expressions Write as an algebraic expression. Use x to represent “a number.” 5 decreased by a number 5 decreased by a number In words: 5 – x Translate:

  13. Word Phrases as Algebraic Expressions Write as an algebraic expression. Use x to represent “a number.” The quotient of a number and 12 The quotient of In words: a number and 12 Translate: 12 x 

  14. Write an algebraic expression for the following m increased by 5 7 times the product of x and t. m + 5 7(xt) or 7xt

  15. Write an algebraic expression for the following 11 less than 4 times a number. two more than 6 times a number. 4n - 11 6n + 2

  16. Which of the following expressions represents: 7 times a number decreased by 13 • 7x + 13 • 7x - 13 • 13 - 7x • 13 + 7x

  17. Which one of the following expressions represents:28 less than three times a number • 28 - 3x • 3x - 28 • 28 + 3x • 3x + 28

  18. Which of the following verbal expressions represents: 2x + 9 • 9 increased by twice a number • a number increased by nine • twice a number decreased by 9 • 9 less than twice a number

  19. Which of the following verbal expressions represents: x2 + 2x • the sum of a number squared and twice a number • the sum of a number and twice the number • twice a number less than the number squared • the sum of a number and twice the number squared

  20. Which of the following expressions represents: four less than the cube of a number • 4 – x3 • 4 – 3x • 3x – 4 • x3 – 4

  21. Terms • Like terms • Terms with the same variable part • Same means same letter(s) and power(s) 2x, -5x ¾x2, 7x2 31xy, 4xy

  22. Terms • We simplify variable expressions by combining like terms. • To combine like terms, work with the coefficients of the like terms

  23. Terms • We simplify variable expressions by combining like terms. • To combine like terms, work with the coefficients of the like terms

  24. Combining Like Terms • t + t + t+ t + t • There are five variables which are like terms therefore we simply add them like we would if they were numbers. • t + t + t+ t + t = 5t

  25. Combining Like Terms 4t + 3t + t = (4+3+1)t = 8t 2t2 + 8 – 5t2 • Rearrange the variables so that all like terms are side by side. 2t2– 5t2+ 8(notice that the sign in front of the number came with the number) 2t2– 5t2+ 8 = -3t2 + 8

  26. Combining Like Terms 2t + 3t2 – 2t –t2 3t2 – t2+ 2t – 2t (collecting like terms) 2t2+ 0 2t2

  27. Which figure below models the simplification of - 4x - 5 + 7x + 7 using these tiles?

  28. Combining Like Terms 3x + 5 – 9x = -5 +3b – 7 – 5b = – 6x + 5 – 2b - 12 3b – 5b = -2b -5 – 7 = -12

  29. Simplifying Algebraic Expressions • Rewrite using as few symbols as possible • Use the distributive property if necessary to remove parentheses. • Combine like terms • More often than not will have numbers and letters in the final answer.

  30. Distributive Property Distributive Property or

  31. Objective - To use the distributive property to simplify numerical and variable expressions. Order of Operations Distributive Property It works! Why use the distributive property?

  32. Simplify using the distributive property. 1) 4) 2) 5) 3) 6)

  33. 4 5 2 Geometric Model for Distributive Property Two ways to find the area of the rectangle. As a whole As two parts

  34. 4 5 2 same Geometric Model for Distributive Property Two ways to find the area of the rectangle. As a whole As two parts

  35. Scientific Notation A short-hand way of writing large numbers without writing all of the zeros.

  36. The Distance From the Sun to the Earth 93,000,000

  37. Step 1 • Move decimal left • Leave only one number in front of decimal 93,000,000 = 9.3000000

  38. Step 2 • Write number without zeros 93,000,000 = 9.3

  39. 7 93,000,000 = 9.3 x 10 Step 3 • Count how many places you moved decimal • If moved to left, make it positive • If moved to right, make it negative • Make that your power of ten

  40. 93,000,000 --- Standard Form • 9.3 x 107 --- Scientific Notation

  41. 9.85 x 107 -----> 6.41 x 1010 -----> 2.79 x 108 -----> 4.2 x 106 1.3 x 10-5 -----> -----> Practice Problem Write in scientific notation. Decide the power of ten. • 98,500,000 = 9.85 x 10? • 64,100,000,000 = 6.41 x 10? • 279,000,000 = 2.79 x 10? • 4,200,000 = 4.2 x 10? • 0.000013 = 1.3 x 10?

  42. Complete Practice Problems Write in scientific notation. • 50,000 • 7,200,000 • 802,000,000,000 • 0.000000000631 Answers 3) 8.02 x 1011 4) 6.31 x 10-10 1) 5 x 104 2) 7.2 x 106

  43. 6.27 x 106 9.01 x 104 3.95 x 10-3 6,270,000 90,100 0.00395 Write in Standard Form Move the decimal Positive exponent → move to right Negative exponent → move to left

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