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Chapter 2 Mathematics in Physics. Metric System A system of Measurements that is based on the power of ten or multiples of ten.

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Presentation on theme: "Chapter 2 Mathematics in Physics. Metric System A system of Measurements that is based on the power of ten or multiples of ten."— Presentation transcript:

1 Chapter 2 Mathematics in Physics

2 Metric System

3 A system of Measurements that is based on the power of ten or multiples of ten

4 SI International System

5 The system of measurements that has been adopted by the scientific world based on the metric system

6 Basic Units

7 Lengthmeterm Masskilogramkg Timeseconds Temp.kelvinK Mattermolemol CurrentampA Lum. Int.candelacd

8 SI Prefixes

9 Nanon0.00000000110 -9 micro  0.00000110 -6 millim0.00110 -3 centic0.0110 -2 decid0.110 -1 kilok100010 3 megaM1,000,00010 6 gigaG1,000,000,00010 9

10 Scientific Notation

11 M x 10 n 1.00...  M < 10 n = an integer

12 M x 10 n M is the coefficient n is the exponent

13 Convert each of the following to scientific notation: 620,000,000 0.000 000 000 045 210,000

14 Addition & Subtraction in Scientific Notation

15 When adding w/o calculator –change all additives to the same power of ten –add coefficients –power of ten remains constant –3 x 10 4 + 4 x 10 5 0.3 x 10 5 + 4 x 10 5 When adding with calculator –all scientific notations must be within parentheses –3 x 10 4 + 4 x 10 5 (3 x 10 4 ) + (4 x 10 5 )

16 When subtracting w/o a calculator –change all numbers to the same exponent –subtract coefficients –keep exponents constant When subtracting with a calculator –place all scientific notations within parentheses

17 Add: 4.10 x 10 16 3.4 x 10 -186 5.2 x 10 15 6.20 x 10 -185

18 Subtract: 4.10 x 10 16 3.4 x 10 -186 5.2 x 10 15 6.20 x 10 -185

19 Add:Subtract: 2.25 x 10 16 3.40 x 10 -18 7.7 x 10 15 - 6.2 x 10 -19

20 Multiplication & Division in Scientific Notation

21 When multiplying w/o a calculator –multiply coefficients –add exponents When multiplying with a calculator –place all scientific notations within parentheses

22 When dividing in w/o a calculator –divide coefficients –subtract exponents When dividing in with a calculator –place all scientific notations within parentheses

23 Multiply: 4.10 x 10 126 2.0 x 10 -186 3.0 x 10 15 1.20 x 10 18

24 divide: 4.40 x 10 16 6.4 x 10 186 2.2 x 10 15 3.20 x 10 -185

25 Compute: 4.40 x 10 -6 6.4 x 10 186 2.0 x 10 15 3.20 x 10 85 x

26 Measurement Uncertainties

27 Accuracy

28 How close the measurement is to the correct measurement

29 Precision

30 How well one can repeat the same results in a measurement

31 Significant Digits

32 The valid digits in a measurement removing all digits that have too much uncertainty to count

33 Determine Sig Dig: 21521.5 2150021.500 0.000 215205 0.000 215 000 000

34 Conversion Factors Ratios = 1

35 1 m 100 cm = 1 100 cm 1 m = 1

36 Conversion Factors When you multiply any number by a conversion factor, the number’s magnitude does not change

37 1  m 10 -6 m = 1 1 nm 10 -9 m = 1

38 1 cm 10 -2 m = 1 1mm 10 -3 m = 1

39 1  m 10 6 m = 1 1km 10 3 m = 1

40 10 9 m 1 Gm = 1 1Gm 10 9 m = 1

41 1 mm 10 -3 m 44 m x = 44 x 10 3 mm = 4.4 x 10 4 mm

42 Drill: Convert: 1) 53  m to km 2) 80 Gbytes to Mbytes 3) 44 mg to ng 4) 62 cm to km

43 Parallax

44 Differences in a measurement due to the angle of observation

45 Common Units m = mass in (kg) t = time in (s) d = displacement in (m)

46 Common Units v = velocity in (m/s) a = acceleration in (m/s 2 ) F = force in (N) N = Newton = kgm/s 2

47 Common Units W = work in (J) J = Joules = kgm 2 /s 2 P = Power in (W) W = Watts = kgm 2 /s 3

48 Graphing Data

49

50 Convert: 1) 44 mm to km 2) 21  s to Ms 3) 64 cg to ng

51 Convert: 1) 3.5 mm 3 to m 3 2) 3.6 km/hr to m/s

52 Density A measure of mass per unit volume

53 Density (D) (  )  = m/V

54 Calculate the density of 750 g of a substance occupying 12.5 mL of space.

55 Convert: 1) 23 cm/ms to km/ns 2) 56  g/nL to kg/ML

56 Convert: 1800 km/hr to mm/ns

57 Convert: 47  g/nL to mg/  L

58 Calculate the density in g/cm 3 of a 0.62 Mg chunk of metal that has dimensions of 12.5 mm by 4.0 m by 2.0 x 10 -3 km. V = lwh  = m/V

59 Convert: 144 km/hr to  m/ns

60 Convert: 250 kg/m 3 to mg/cm 3

61 Convert: 1)1800 miles/hr to mm/ns 2.54 cm = 1 inch

62 Drill:Convert: 4.6  g/nL to Mg/m 3 1 mL = 1 cm 3

63 Convert: 2.5 x   miles/year to  m/ms 2.54 cm = 1.00 inch

64 Name & describe the seven basic units

65 Name & give the multiple for: k, m, M, , n, c, & G

66 Calculate the density in g/mL of 7.520 x 10 4 kg of stuff occupying 2.5 x 10 3 m 3 of space.

67 Calculate the volume in kL of an rectangular prism with a length of 25 cm, width of 40.0 mm, & a height of 33500 mm.

68 Review Lab Due Monday

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