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Area Formulas Rectangle What is the area formula?

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Presentation on theme: "Area Formulas Rectangle What is the area formula?"— Presentation transcript:

1

2 Area Formulas

3 Rectangle

4 What is the area formula?

5 Rectangle What is the area formula?bh

6 Rectangle What is the area formula?bh What other shape has 4 right angles?

7 Rectangle What is the area formula?bh What other shape has 4 right angles? Square!

8 Rectangle What is the area formula?bh What other shape has 4 right angles? Square! Can we use the same area formula?

9 Rectangle What is the area formula?bh What other shape has 4 right angles? Square! Can we use the same area formula? Yes

10 Practice! Rectangle Square 10m 17m 14cm

11 Answers Rectangle Square 10m 17m 14cm 196 cm 2 170 m 2

12 So then what happens if we cut a rectangle in half? What shape is made?

13 Triangle So then what happens if we cut a rectangle in half? What shape is made?

14 Triangle So then what happens if we cut a rectangle in half? What shape is made? 2 Triangles

15 Triangle So then what happens if we cut a rectangle in half? What shape is made? 2 Triangles So then what happens to the formula?

16 Triangle So then what happens if we cut a rectangle in half? What shape is made? 2 Triangles So then what happens to the formula?

17 Triangle So then what happens if we cut a rectangle in half? What shape is made? 2 Triangles So then what happens to the formula? bh

18 Triangle So then what happens if we cut a rectangle in half? What shape is made? 2 Triangles So then what happens to the formula? bh 2

19 Practice! Triangle 5 ft 14 ft

20 Answers 35 ft 2 Triangle 5 ft 14 ft

21 Parallelogram Let’s look at a parallelogram.

22 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

23 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

24 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

25 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

26 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

27 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

28 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

29 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

30 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

31 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends?

32 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends? What will the area formula be now that it is a rectangle?

33 Parallelogram Let’s look at a parallelogram. What happens if we slice off the slanted parts on the ends? What will the area formula be now that it is a rectangle? bh

34 Parallelogram Be careful though! The height has to be perpendicular from the base, just like the side of a rectangle! bh

35 Parallelogram Be careful though! The height has to be perpendicular from the base, just like the side of a rectangle! bh

36 Parallelogram Be careful though! The height has to be perpendicular from the base, just like the side of a rectangle! bh

37 Rhombus The rhombus is just a parallelogram with all equal sides! So it also has bh for an area formula. bh

38 Practice! Parallelogram Rhombus 3 in 9 in 4 cm 2.7 cm

39 Answers 10.8 cm 2 27 in 2 Parallelogram Rhombus 3 in 9 in 4 cm 2.7 cm

40 Let’s try something new with the parallelogram.

41 Earlier, you saw that you could use two trapezoids to make a parallelogram.

42 Let’s try something new with the parallelogram. Earlier, you saw that you could use two trapezoids to make a parallelogram. Let’s try to figure out the formula since we now know the area formula for a parallelogram.

43 Trapezoid

44

45 So we see that we are dividing the parallelogram in half. What will that do to the formula?

46 Trapezoid So we see that we are dividing the parallelogram in half. What will that do to the formula? bh

47 Trapezoid So we see that we are dividing the parallelogram in half. What will that do to the formula? bh 2

48 Trapezoid But now there is a problem. What is wrong with the base? bh 2

49 Trapezoid bhbh 2 So we need to account for the split base, by calling the top base, base 1, and the bottom base, base 2. By adding them together, we get the original base from the parallelogram. The heights are the same, so no problem there.

50 Trapezoid (b1 + b2)h 2 So we need to account for the split base, by calling the top base, base 1, and the bottom base, base 2. By adding them together, we get the original base from the parallelogram. The heights are the same, so no problem there. base 2 base 1 base 2

51 Practice! Trapezoid 11 m 3 m 5 m

52 Answers 35 m 2 Trapezoid 11 m 3 m 5 m

53 Summary so far... bh

54 Summary so far... bh

55 Summary so far... bh

56 Summary so far... bh

57 Summary so far... bh 2

58 Summary so far... bh 2

59 Summary so far... bh 2

60 Summary so far... bh 2

61 Summary so far... bh 2

62 Summary so far... bh 2

63 Summary so far... bh 2

64 Summary so far... bh 2

65 Summary so far... bh 2

66 Summary so far... bh 2

67 Summary so far... bh 2 (b1 + b2)h 2

68 Summary so far... bh 2 (b1 + b2)h 2

69 Summary so far... bh 2 (b1 + b2)h 2

70 Summary so far... bh 2 (b1 + b2)h 2

71 Summary so far... bh 2 (b1 + b2)h 2

72 Summary so far... bh 2 (b1 + b2)h 2

73 Summary so far... bh 2 (b1 + b2)h 2

74 Summary so far... bh 2 (b1 + b2)h 2

75 Summary so far... bh 2 (b1 + b2)h 2

76 Summary so far... bh 2 (b1 + b2)h 2 Symmetry Line * Half the Other Diagonal

77 Final Summary Make sure all your formulas are written down! bhbh bhbh 2 (b1 + b2)h 2 Symmetry Line * Half the Other Diagonal

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