1. Fundamentals of Construction
Construction Math
Fundamentals of Construction

2. Section 1.0.0 Why is math important in construction?
* Provides accurate communication of measurements of materials, tools, and/or equipment

3. Section 2.0.0
Whole Numbers: complete numbers w/o decimals or fractions
,724
Non-Whole Numbers: ½

4. Section 2.1.0 Parts to Whole Numbers: Digits Units Tens Hundreds
Thousands
Ten Thousands
Hundred Thousand
Millions

5. Section 2.1.1
Review Questions
p. 2.3

6. Section 2.2.0
Adding Whole Numbers 6
+ 3 9

7. Section 2.2.1
Carrying in Addition 48
+ 64
112

8. Section 2.2.2
Review Questions
p. 2-4

9. Section 2.2.2 Problem-Solving (Word Problems)
If a construction company had 14 workers on one job, 18 on another, and 32 on a third job, how many total employees do they have all together?

10. Section 2.2.2 14 18
+ 32
64 total workers

11. Section 2.3.0
Subtracting Whole Numbers: 38
- 24 14

12. Section 2.3.1
Review Questions
p. 2.5

13. Section 2.3.0
Borrowing during subtraction 34
- 28 6

14. Section 2.4.0
Multiplying Simple Whole Numbers 4
x 8 32

15. Section 2.4.1
Review Questions
p. 2.6

16. Section 2.4.2
Multiplying Larger Whole Number 75
x 16
420
75_
1170

17. Section 2.4.3
Review Questions
p. 2.7

18. Section 2.5.0
Dividing Whole Numbers:
10 div by 2 5 2 10 10

19. Section 2.5.1
Review Questions
p. 2.8

20. Section 2.5.2 Dividing More Complex Numbers: 2 8. 7 12 345. 24 10 5 9624 10 5 96 9 84

21. Section 2.5.3
Review Questions
p. 2.9

22. Section 2.6.0 Using Calculators Addition Section 2.6.2
REVIEW QUESTIONS
p. 2.10

23. Section 2.6.4
Subtraction
Review Questions
p. 2.11

24. Section 2.6.5
Multiplication
Review Questions 2.6.6
p. 2.11

25. Section 2.6.7
Division
Review Questions
Section 2.6.9
p. 2.12

26. Section 2 Review
#s 1-20 p

27. Section 3.0.0
Measurements
Divisions of an inch

28. Section 3.1.0
Review Questions
p. 2.16

29. Section 4.0.0
Fractions – value expressed with a numerator and denominator 1 2
Numerator
Denominator

30. Section 4.1.0
Equivalent fractions – different numerators and denominators but having the same value

31. Section 4.1.1
Review Questions
p. 2.17

32. Section 4.2.0 Reducing to lowest forms
Reduce to lowest terms possible by dividing both the numerator and numerator by the highest number possible

33. Section 4.2.0

34. Section 4.2.1
Review Questions
p. 2-18

35. Section 4.3.0 Lowest common denominator
Find lowest number that will EVENLY divide into both denominators

36. Section 4.3.0
3 5
Which is larger? or

37. Section 4.3.1
Review Questions
p. 2-19

38. Section 4.4.0 Adding Fractions Find lowest common denominator
Use that denominator
Add the numerators
Reduce to lowest terms

39. Section 4.4.0
3 5

40. Section 4.4.1
Review Questions
p. 2-20

41. Section 4.5.0 Subtracting Fractions
Done same way as addition, except subtract numerators

42. Section 4.5.0
3 5

43. Section 4.5.1
Review Questions
p. 2.20

44. Section 4.5.1
Subtracting a fraction from a whole number
5 – ¼ =

45. Section 4.5.2 4
4/4 5
- ¼
4 ¾
3/4

46. Section 4.5.3
Review Questions
p. 2-21

47. Section 4.6.0
Multiplying Fractions
4 x = 20

48. Section 4.6.1
Review Questions
p. 2.21

49. Section 4.7.0 Dividing Fractions Invert (flip) 2nd fraction
multiply numerator
multiply denominator
simplify

50. 4.7.0 =
3 x = = 3

51. Section 4.7.1
Review Questions
p. 2.22

52. Section 4.0.0
Review Questions
#s 1-20 p

53. Section 5.0.0 Reading metric rule units of tenths
can be written as decimal or fraction

54. 5.0.0
0.2
0.7
1.0
1.6
2.1
2.7

55. 5.1.1
Review questions
p. 2.25

56. Section 5.2.1
Review Questions
p. 2.26

57. Section 5.3.1
Review Questions p

58. Section 5.4.0 Adding / Subtracting Decimals Rule: align decimals
Review questions
p. 2.28

59. 5.4.0
4.561 =

60. Section 5.5.0 Multiplying Decimals
Rule: answer must total number of decimal places in answer

61. 5.5.1
8.2
x 1.26
10332 (count 3 decimal places) =

62. 5.5.1
Review Questions p

63. 5.6.0 Dividing decimals if decimal in numerator, keep decimals in line
If decimal in denominator, move until right of units place. Must move same number of places for the numerator.

64. 5.6.2
Review questions
p. 2.30

65. 5.6.4
Review questions
p. 2.30

66. 5.6.6
Review questions
p. 2.31

67. 5.7.0 Rounding decimals .5 or above, round up
or below, drop off

68. 5.7.7
Review questions
p. 2.31

69. 5.8.0
Using calculators

70. 5.8.1
Review questions
p. 2.32

71. Section 5.0.0
Review Questions
#s 1-15 p

72. 6.0.0 Conversion Processes Decimal  Percentages
Percentages  Decimals

73. 6.0.0
decimals  percentage = # x 100
percentage  decimals = # / 100

74. 6.1.1
Review questions
p. 2.35

75. 6.2.1 Fractions  decimals set up as division problem.
Review questions
p. 2.36

76. 6.3.1 Converting decimals  fractions Setup with value over
place value
Becomes fraction  reduce

77. 6.4.0 Converting inches  decimals
divide inches by 12 and place as decimal
Ex. 7” = _?_’ 7/12” = 0.583’

78. Section 6.0.0
Review questions
#s 1-10
p. 2.37

79. Section 7.0.0
WE WILL SKIP!!!!!!

80. 8.0.0
Angles
acute
right
obtuse
straight
adjacent
opposite

81. Shapes
Triangles – 180 ,
equilateral
right
isosceles
scalene

82. Squares / Rectangles
4 sides, right angles
diagonals
360

83. Circles
360
circumference
diameter
radius

84. Pythagorean Theorem
a b = c 2 2 2

85. Area amount of space a shape takes up
measured in square in (sq in) or ft (sq ft)

86. Area A (square) = l x w A (rectangle) = l x w A (circle) = Ii r
A (triangle) = ½bh 2

87. Area
find area 8’
14’

88. Area 9’ 9’

89. Area 9’
16’

90. Area
12’

91. 8.3.1
Review Questions
p. 2.52