MODULE A - 4

1. MODULE A - 4 MEASUREMENT SYSTEMS & SCIENTIFIC NOTATION

2. OBJECTIVES • At the end of this module, the student will be able to… • Identify and compare the systems of measurement used in the clinical setting. • Identify the standard prefixes used in the metric system • State the metric units of length, mass, volume, time, and temperature. • Distinguish between the metric units for liquid (mL) and solid volume (cc) measurements.

3. Measurement systems • Method of quantifying matter • Solids, liquids & gases • Quantities include: • Length • Area • Weight • Volume • Pressure • Temperature • Time • Systems used in medicine: A. Conventional B. Metric C. Standard International

4. Conventional Systems • Also known as: • British • English • U.S Customary • (FPS) foot, pound, second • Commonly used in U.S. FPS

5. Examples of length & area 12 inches = 1 foot 3 feet (36 inches) = 1 yard 220 yards = 1 furlong 8 furlongs = 1 mile 1,760 yards = 1 mile 5,280 feet = 1 mile 1 sq. foot (foot2) = 122 sq. inches 1 sq. yard (yard2) = 9 sq. feet 43,560 sq. feet = 1 acre 1 sq. mile (mile2) = 640 acres

6. Examples of liquid measure 1 teaspoon (tsp) = 1/3 tablespoon 2 tablespoon (tbsp) = 1 fluid ounce 1 fluid ounce (oz) = 1/8 cup 2 fluid ounces = 1/4 cup 2 2/3 fluid ounces = 1/3 cup 4 fluid ounces = 1/2 cup 5 1/3 fluid ounces = 2/3 cup 6 fluid ounces = 3/4 cup 8 fluid ounces = 1 cup 2 cups (c) = 1 pint 2 liquid pints (pt) = 1 liquid quart (qt) 4 liquid pints = 1 gallon (gal)

7. Examples of dry measure 1 dry quart = 2 dry pints 8 dry pints = 1 peck 4 pecks = 1 bushel

8. Standard International (SI) • Simplified modification of metric system. • Worldwide effort started in 1960s to standardize to this system. • Also known as: • (MKS) meter, kilogram, second MKS

9. Comparison

10. Metric System • Developed in Europe. • Has all units based on multiples of 10. • Also known as: • (CGS) centimeter, gram, second CGS

11. Measurements in Respiratory Therapy • Length • Meter (m) • Volume • Liter (L) • Mass • Gram (g) • Time • Seconds (sec) • Temperature • Centigrade (Celsius), Kelvin, Fahrenheit • Pressure • Centimeters of Water (cm H2O), Pounds per square inch (psi), Millimeters of mercury (mm Hg), Torr, Pascal (Pa), and Atmospheres (atm) • Force • Dynes

12. Conversion • Conversion within the metric system is easy • Everything based on multiples of ten. • Conversion from one system to the other: • Must know the conversion factors.

13. Conversion • Conversion within these systems or from one system to the other: • You Must know how to do metric conversions. • I will provide the S.I. and conventional factors on an exam or quiz. • There are too many to memorize. • Gimli Glider & Mars Climate Orbiter

14. Basic (fundamental) Units • Basic unit has value of one. (1x100 = 1) • One Liter • Smaller - milliliter • Larger - kiloliter • One Gram • Smaller – microgram • Larger - hectogram • One Meter • Smaller - decimeter • Larger - Megameter Larger Smaller Opposite of the number line

15. Metric Chart Basic or Fundamental Unit Liter Gram Meter 105 104 103 102 101 100 10-1 10-2 10-3 10-4 10-5 |-------|-------|-------|-------|-------|-------|-------|-------|------|-------| kilo hecto deca deci centi milli x1000 x100 x10 (k) (h) (da) (d) (c) (m) LARGER SMALLER

16. Greek Prefixes - Units to the left of the basic unit and larger. • BASIC UNIT = One Liter, Gram or Meter • 10 1 deca (da) 10 x larger 10 • 10 2 hecto (h) 100 x larger 100 • 10 3 kilo (k) 1000 x larger 1000 • 10 4 • 10 5 • 10 6 Mega (M) 1,000,000x 1,000,000 • 10 7 • 10 8 • 10 9 Giga (G) 1,000,000,000x 1,000,000,000

17. Latin Prefixes Units to the right of the basic unit and smaller. • BASIC UNIT = One Liter, Gram or Meter • 10 -1deci (d); 10 x smaller; 1/10; x 0.1 • 10 -2centi (c); 100 x smaller; 1/100; x 0.01 • 10 -3milli (m); 1000 x smaller; 1/1,000; x 0.001 • 10 -4 • 10 -5 • 10 -6micro (m) or (mc); 1,000,000 x smaller; 1/1,000,000; x 0.000001 • 10 -7 • 10 -8 • 10 -9nano (n); 1,000,000,000 x smaller; 1/1,000,000,000; x 0.000000001 • 10-10Angstrom (Å); 10,000,000,000 x smaller; 1/10,000,000,000; x 0.0000000001

18. Scientific Notation • A method of expressing the value of a very small or very large number. • Scientific Notation: (baseexponent) • Base is the numberto be multiplied by itself (usually 10). • Exponent is the number of times it is multiplied. • 103 = 10 x 10 x 10 = 1,000

19. Scientific Notation • Example: • A kilometer is 1,000 times larger than a meter • Count the zeros (that equals exponent) • 103 • 10x10x10 times larger

20. Scientific Notation • Example: • Angstrom (Å) is 10 billion times smaller than a meter (m) • That is…10,000,000,000 times smaller • Count the zeros to determine exponent oror • Can also be written as 0.0000000001 • 10x10x10x10x10x10x10x10x10x10 times smaller

21. Numbers and Exponents 100 = 1 a x 100 = a 101 = 10 a x 101 = a x 10 102 = 100 a x 102 = a x 100 103 = 1000 a x 103 = a x 1000 106 = 1,000,000 a x 106 = a x 1,000,000 109 = 1,000,000,000 a x 109 = a x 1,000,000,000 10-1 = 0.1 a x 10-1 = a x 0.1 10-2 = 0.01 a x 10-2 = a x 0.01 10-3 = 0.001 a x 10-3 = a x 0.001 10-6 = 0.000001 a x 10-6 = a x 0.000001 10-9 = 0.000000001 a x 10-9 = a x 0.000000001

22. Numbers and Exponents Positive exponent = # of zeros 5 x 100 = 5 5 x 101 = 50 5 x 102 = 500 5 x 103 = 5000 5 x 106 = 5,000,000 5 x 109 = 5,000,000,000 Negative exponent = # of decimalplaces 5 x 10-1 = 0.5 5 x 10-2 = 0.05 5 x 10-3 = 0.005 5 x 10-6 = 0.000005 5 x 10-9 = 0.000000005

23. Examples - Avogadro’s Number Expresses the number of atoms in one mole of a gas Long form: 602,000,000,000,000,000,000,000 atoms Scientific notation: 6.02 x 10 23 atoms Process: Count over to the left, the number of decimal places to get a number between 1 & 10

24. Example - Mass of an electron Long Form: 0.000 000 000 000 000 000 000 000 000 000 911 grams Scientific Notation: 9.11 x 10-31 grams Process: Count over to the right the number of decimal places necessary to get a number between 1 and 10

25. Practice: Express the following exponentially • 500 = 5 x 102 (count over to left 2 decimal places) • 93,000,000 = _________________ • 0.0003 = _________________ • 0.000000024 = _________________

26. Exponent Relationship to Basic Unit • Negative exponents are smaller (10 –3) • Positive exponents are larger (10 3) If the metric system was money… | | | | | | $1,000.00 $100.00 $10.00 $1.00 10 cent 1cent 0.10 Basic Unit 0.01

27. One more point regarding units of measure.

28. Why is mL and cc (cm3) the same? • Cubic centimeter (cc or cm3) and millimeter (mL) are used interchangeably in medicine. • The unit cc is a length measurement. • The unit mL is a volume measure. • A cube 1 cm long x 1 cm wide by 1 cm high (l x w x h = area) will hold 1 mL of liquid volume. • We therefore use the units interchangeably. • 1 cc or cm3 = 1 mL

29. The volume of this cube is one mL. 1 cm deep 1 cm high Cubic centimeter 1 mL = 1 cc = 1 cm3 1 cm length

30. Additional Conversion Factors Length: 1 meter = 39.37 inches 1 cm = .3937 inches 1 km = 0.62 miles Volume: 1 mL = 1 cc = 1 cm3 1 L = 1.0567 qts. 946 mL = 1 qt. 1 pint = 473 mL 1 kg = 2.2 pounds (lbs) 1 lb = 454 grams