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Keith Baty Whitehouse High School How close a measurement agrees with a true or accepted value. How close several trials making the same measurement are to each other. The reproducibility of data. Agreement among a set of data. Good accuracy Poor accuracy Poor accuracy Good precision Good precision Poor precision A metal bar about 9.8 inches long has been passed around to several groups of students. Each group is asked to measure the length of the bar. Each group has five students and each student independently measures the rod and records his or her result. Student Group Student 1 Student 2 Student 3 Student 4 Student 5 Group A 10.1 10.4 9.6 9.9 10.8 Group B 10.135 10.227 10.201 10.011 10.155 Group C 12.14 12.17 12.15 12.14 12.18 Group D 10.05 10.82 8.01 11.5 10.77 Group E 10 11 10 10 10 Which group has the most accurate measurement? A metal bar about 9.8 inches long has been passed around to several groups of students. Each group is asked to measure the length of the bar. Each group has five students and each student independently measures the rod and records his or her result. Student Group Student 1 Student 2 Student 3 Student 4 Student 5 Group A 10.1 10.4 9.6 9.9 10.8 Group B 10.135 10.227 10.201 10.011 10.155 Group C 12.14 12.17 12.15 12.14 12.18 Group D 10.05 10.82 8.01 11.5 10.77 Group E 10 11 10 10 10 Which group has the most precise measurement? Suppose a ruler is used to measure the length of an object as shown in the figure below. Similarly, all measured quantities are generally reported in such a way that the last digit is uncertain. All digits in a measurement including the uncertain one are called significant figures. Counting Significant Figures • The following rules can be used to determine the number of significant figures (or digits). • All non-zero digits are considered significant. • If a zero is between two non-zero digits then it is significant. • Leading zeros are never significant. • Trailing zeros are only significant if there is a decimal present. Examples Measured Value 2.456 1003.2 1.03000 0.0000402 230000 # of S. F. 4 5 6 3 ? Exact numbers are considered to have an infinite number of significant figures. For example, if you said, “A is twice (or two times) as large as B”, the number 2 would be exact. Or, if you said “There are 4 quarts in a gallon”, the number 4 would be exact. Exact numbers usually involve counted values or definitions. Multiplication and division For multiplication and division, the number of significant figures in the answer should be equal to the number of sig figs as the measurement with the least number of SIGNIFICANT FIGURES. 2.7832 x 1.4 3.89648 round off to 3.9 Examples: 3.40 x 4.5672 = 15.52848 3 5 round off to 15.5 (3 significant figures) Addition and subtraction The result should be reported to the same number of decimal places as the least precise measurement (the measurement with the fewest decimal places). 3.6923 1.234 8.7937 2.123 2.02 6.6707 6.9463 round off to 6.95 round off to 6.671 Example: 2.487 + 330.4 + 22.59 = 355.477 round off to 355.5 (Uncertainty in tenths place) 9. The following are placed in a beaker weighing 39.457 g: 2.689 g of NaCl, 1.26 g of sand and 5.0 g water . What is the final mass of the beaker? 10. If the beaker containing a sample of alcohol weighs 49.8767 g and the empty beaker weighs 49.214 g, what is the weight of the alcohol? CONVERSION FACTORS mega (M) 1 Mm = 106 m kilo (k) 1 km = 1000 m hecto (h) 1 hm = 100 m deka (da) 1 dam = 10 m English /Metric 1 in = 2.54 cm 1.06 qt = 1 L 1 lb = 454 g meter (m) liter (L) gram (g) deci (d) 10 dm = 1 m centi (c) 100 cm = 1 m nano (n) 109 nm = 1 m milli (m) 1000 mm = 1 m micro (μ) 106 μ m = 1 m When I say I want to lose weight I should say I want to lose mass. I would weigh less on the moon. The problem is I would look the same in a mirror. I really want there to be less of me not less force of gravity on me Mass a measure of the amount of matter Weight a measure of the force of gravity on an object Volume a measure of the amount of space an object occupies