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Transcript of Section 2.3 1 2 How reliable are measurements? Standard: I&E (1b) Article: 41 Mastering Concepts:...
Section 2.3
1
2
How reliable are measurements? Standard: I&E (1b) Article: 41 Mastering Concepts: 50(62-68) Terms: 36 Practice Problems: 38(29-30), 39(31-32),41(33-36), 42(37-38)
Homework: Cornell Notes: 2.3 Section Assessment: 42(39-42) Mastering Problems: 51(81-85)
11 Stamps
Section 2-3Section 2.3 Uncertainty in Data
• Define and compare accuracy and precision.
experiment: a set of controlled observations that test a hypothesis
• Describe the accuracy of experimental data using error and percent error.
• Apply rules for significant figures to express uncertainty in measured and calculated values.
ComprehensionVerbs
• Confirm• Convert• Match• Infer• Discuss• Estimate• Predict• Explain• Relate• Describe• paraphrase
Product• Analogy• Graph• Speech• Collage• Drama• Poster• Story• Summary• Outline• Photograph• Tape recording• Diagram• cartoon
ApplicationVerbs• Apply• Modify• Build• Construct• Solve• Report• Sketch• produce
Product• Diagram• Sculpture• Photograph• Forecast• Illustration• List• Project• Puzzle• Cartoon• Filmstrip
Section 2-3Section 2.3 Uncertainty in Data (cont.)
accuracyprecisionerror
Measurements contain uncertainties that affect how a result is presented.
percent errorsignificant figures
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Exact Inexact
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Accuracy Precision
Section 2-3Accuracy and Precision
• Accuracy refers to how close a measured value is to an accepted value.
• Precision refers to how close a series of measurements are to one another.
good precision & good accuracy
poor accuracy but good precision
good accuracy but poor precision poor precision & poor accuracy
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Section 2-3Accuracy and Precision (cont.)
• Error is defined as the difference between and experimental value and an accepted value.
Section 2-3Accuracy and Precision (cont.)
• The error equation is error = experimental value – accepted value.
• Percent error expresses error as a percentage of the accepted value.
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62. If you report two measurements of mass, 7.42 g and 7.56 g, are the measurements accurate? Are they precise? Explain your answers. (2.3)
You must know the accepted value to know if the measurements are accurate. They are fairly precise because there is only 0.14 g difference between the two measurements.
Mastering Concepts: 50(62-68)
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63. When converting from meters to centimeters, how do you decide which values to place in the numerator and denominator of the conversion factor? (2.3)
Meters will be in the denominator so that the units will cancel when the starting value is multiplied by the conversion factor.
Mastering Concepts: 50(62-68)
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64. Why are plus and minus signs ignored in percent error calculations? (2.3)
You need to know only the difference between the measured value and the magnitude of the accepted value.
Mastering Concepts: 50(62-68)
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65. In 50 540, which zero is significant? What is the other zero called? (2.3)
the first one; placeholder
66. Which of the following three numbers will produce the same number when rounded to three significant figures: 3.456, 3.450, or 3.448? (2.3)
3.450 and 3.448
Mastering Concepts: 50(62-68)
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67. When subtracting 61.45 g from 242.6 g, which factor determines the number of significant figures in the answer? Explain. (2.3)
the number that has the fewest digits to the right of the decimal point; it is less precise.
68. When multiplying 602.4 m by 3.72 m, which factor determines the number of significant figures in the answer? Explain. (2.3)
3.72; it has the smaller number of significant figures.
Mastering Concepts: 50(62-68)
Practice Problems: 38 (29-30)Density Data Collected by Three Different StudentsThe Accepted Density of Table Sugar is 1.59 g/cm3
Student A Student B Student CTrial 1 1.54 g/cm3 1.4 g/cm3 1.70 g/cm3
Trial 2 1.60 g/cm3 1.68 g/cm3 1.69 g/cm3
Trial 3 1.57 g/cm3 1.45 g/cm3 1.71 g/cm3
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29.Calculate the percent errors for Student B’s trials.30.Calculate the percent errors for Student C’s trials
Practice Problems: 38 (29-30)Errors for Data in Table 2-3
The Accepted Density of Table Sugar is 1.59 g/cm3
Student A Student B Student CTrial 1 -0.05 g/cm3 -0.019 g/cm3 +0.11 g/cm3
Trial 2 +0.01 g/cm3 +0.09 g/cm3 +0.10 g/cm3
Trial 3 -0.02 g/cm3 -0.14 g/cm3 +0.12 g/cm3
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29.Calculate the percent errors for Student B’s trials.30.Calculate the percent errors for Student C’s trials
B/ Density B/ ErrorsTrial 1 1.4 g/cm3 1.59-1.4 = -0.19 g/cm3
Trial 2 1.68 g/cm3 1.59-1.68 = +0.09 g/cm3
Trial 3 1.45 g/cm3 1.59- 1.45 = -0.14 g/cm3
0.19 x 100 = 11.9%1.59
0.09 x 100 = 5.66%1.59
0.14 x 100 = 8.80%1.59
29.
The Accepted Density of Table Sugar is 1.59 g/cm3
Practice Problems: 38 (29-30)Errors for Data in Table 2-3
Student A Student B Student CTrial 1 -0.05 g/cm3 -0.019 g/cm3 +0.11 g/cm3
Trial 2 +0.01 g/cm3 +0.09 g/cm3 +0.10 g/cm3
Trial 3 -0.02 g/cm3 -0.14 g/cm3 +0.12 g/cm3
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29.Calculate the percent errors for Student B’s trials.30.Calculate the percent errors for Student C’s trials
Errors for Data in Table 2-3
C/Density C/ ErrorsTrial 1 1.70 g/cm3 1.59 - 1.70 = +0.11 g/cm3
Trial 2 1.69 g/cm3 1.59 – 1.69 = +0.10 g/cm3
Trial 3 1.71 g/cm3 1.59 – 1.71 = +0.12 g/cm3
0.11 x 100 = 6.92%1.59
0.10 x 100 = 6.92%1.59
0.12 x 100 = 7.55%1.59
30.
The Accepted Density of Table Sugar is 1.59 g/cm3
measurement (1.4)
• always has some degree of uncertainty.
• The uncertainty of a measurement involves estimates and cannot be exactly reproduced.
• depends on the precision of the measuring device.
• Precision= how accurate or exact
25 mL vs. 25.00 mL?• The quantity 25 mL means that the volume is
between 24 mL and 26 mL,
• whereas the quantity 25.00 mL means that the volume is between 24.99 mL and 25.01 mL
significant figures
• recording the certain digits and the first uncertain digit (the estimated number)
• 7.5 are certain digits
Section 2-3Significant Figures
• Often, precision is limited by the tools available.
• Significant figures include all known digits plus one estimated digit.
Section 2-3Significant Figures (cont.)
• Rules for significant figures
– Rule 1: Nonzero numbers are always significant.– Rule 2: Zeros between nonzero numbers are always
significant.– Rule 3: All final zeros to the right of the decimal are
significant.– Rule 4: Placeholder zeros are not significant. To remove
placeholder zeros, rewrite the number in scientific notation.– Rule 5: Counting numbers and defined constants have an
infinite number of significant figures.
Pacific or Atlantic?• Decimal Present?• Count from the Pacific
• Decimal Absent?• Count from the Atlantic
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A little trick for “sig figs”
31.80
564300.0020
10000
Practice Problems: 39 (31-32)
Determine the number of significant figures in each measurement.
31.a. 508.0 Lb. 820 400.0 Lc. 1.0200 x 105 kgd. 807 000 kg
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Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.31. a.
508.0
4 30
– Rule 3: All final zeros to the right of the decimal are significant.
Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.31. b.
820 400.0
7 31
– Rule 3: All final zeros to the right of the decimal are significant.
Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.31. c.
1.0200 x 105
5 32
– Rule 3: All final zeros to the right of the decimal are significant.
Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.31. d.
807 000
3 33
Rule 1: Nonzero numbers are always significant.
Practice Problems: 39 (31-32)
Determine the number of significant figures in each measurement.
32.a. 0.049 450 sb. 0.000482 mLc. 3.1587 x 10-8 gd. 0.0084 mL
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Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.32a.
0.049 450
5 35
Rule 4: Placeholder zeros are not significant. To remove placeholder zeros, rewrite the number in scientific notation
Practice Problems: 39 (31-32)Determine the number of significant figures in each
measurement.
32b. 0.000482
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Rule 4: Placeholder zeros are not significant. To remove placeholder zeros, rewrite the number in scientific notation
Your Turn ...
Determine the number of significant figures in each measurement.
32.c. 3.1587 x 10-8 gd. 0.0084 mL
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Section 2-3Rounding Numbers
• Calculators are not aware of significant figures.
• Answers should not have more significant figures than the original data with the fewest figures, and should be rounded.
Section 2-3Rounding Numbers (cont.)
• Rules for rounding– Rule 1: If the digit to the right of the last significant figure
is less than 5, do not change the last significant figure.– Rule 2: If the digit to the right of the last significant figure
is greater than 5, round up to the last significant figure.– Rule 3: If the digits to the right of the last significant figure
are a 5 followed by a nonzero digit, round up to the last significant figure.
Section 2-3Rounding Numbers (cont.)
• Rules for rounding (cont.)– Rule 4: If the digits to the right of the last significant
figure are a 5 followed by a 0 or no other number at all, look at the last significant figure. If it is odd, round it up; if it is even, do not round up.
Practice Problems: 41(33-34)
Round all numbers to four significant figures. Write the answers to problem 34 in scientific notation
33.a. 84 791 kgb. 38.5432 gc. 256.75 cmd. 4.9356 m
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Practice Problems: 41(33-34)Round all numbers to four significant figures. Write
the answers to problem 34 in scientific notation34.a. 0.000 548 18 gb. 136 758 kgc. 308 659 000 mmd. 2.0145 mL
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Section 2-3Rounding Numbers (cont.)
• Addition and subtraction– Round numbers so all numbers have the same
number of digits to the right of the decimal.
• Multiplication and division– Round the answer to the same number of
significant figures as the original measurement with the fewest significant figures.
When adding and subtracting, limit and round your answer to the least number of decimal places in any of the numbers that make up your answer.
Example 2: 123.25 ml + 46.0 ml + 86.257 ml =225,507 ml
The answer is expressed as 225.5 ml since 46.0 ml has only one decimal place.
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Practice Problems: 41 (35-36)
Complete the following addition and subtraction problems. Round off the answers when necessary.
35. a. 43.2 cm + 51.0 cm + 48.7 cm b. 258.3 kg + 257.11 kg + 253 kg c. 0.0487 mg + 0.058 34 mg + 0.004 83 mg
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Practice Problems: 41 (35-36)Complete the following addition and subtraction problems. Round
off the answers when necessary.35a.
43.2 cm + 51.0 cm + 48.7 cm 142.9 cm
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• Addition and subtraction
Round numbers so all numbers have the same number of digits to the right of the decimal.
Practice Problems: 41 (35-36)Complete the following addition and subtraction problems.
Round off the answers when necessary.35b.
258.3 kg + 257.11 kg + 253 kg
768 kg
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• Addition and subtractionRound numbers so all numbers have the same number of digits to the right of the decimal.
Your Turn...
Complete the following addition and subtraction problems. Round off the answers when necessary.
35c.
0.0487 mg + 0.058 34 mg + 0.004 83 mg
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Practice Problems: 41 (35-36)Complete the following addition and subtraction
problems. Round off the answers when necessary.
36. a. 93.26 cm - 81.14 cm b. 5.236 cm - 3.14 cm c. 4.32 x 103 cm - 1.6 x 103 cm
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Practice Problems: 41 (35-36)Complete the following addition and subtraction
problems. Round off the answers when necessary.36a.
93.26 cm - 81.14 cm 12.12 cm
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Addition and subtraction
Round numbers so all numbers have the same number of digits to the right of the decimal.
Practice Problems: 41 (35-36)Complete the following addition and subtraction
problems. Round off the answers when necessary.36b.
5.236 cm - 3.14 cm 2.10 cm
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• Addition and subtraction
Round numbers so all numbers have the same number of digits to the right of the decimal.
Your Turn...Complete the following addition and subtraction
problems. Round off the answers when necessary.
36. c. 4.32 x 103 cm - 1.6 x 103 cm
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Calculations using Significant FiguresWhen multiplying and dividing, limit and round to the least number of significant figures in any of the factors.
Example 1: 23.0 cm x 432 cm x 19 cm =188,784 cm3
The answer is expressed as 190,000 cm3 since 19 cm has only two significant figures.
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Practice Problems: 42 (37-38)Complete the following calculations. Round off the
answers to the correct number of significant figures.
37. a. 24 m x 3.26 m b. 120 m x 0.10 m c. 1.23 m x 2.0 m d. 53.0 m x 1.53 m
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Practice Problems: 42 (37-38)Complete the following calculations. Round off the answers
to the correct number of significant figures.
37. a.
24 m x 3.26 m 78 m2
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Multiplication and division
Round the answer to the same number of significant figures as the original measurement with the fewest significant figures.
Practice Problems: 42 (37-38)Complete the following calculations. Round off the answers
to the correct number of significant figures.
37b.
120 m x 0.10 m 14 m2
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Multiplication and division
Round the answer to the same number of significant figures as the original measurement with the fewest significant figures.
Your Turn...Complete the following calculations. Round off the
answers to the correct number of significant figures.
37. c. 1.23 m x 2.0 m d. 53.0 m x 1.53 m
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Practice Problems: 42 (37-38)Complete the following calculations. Round off the
answers to the correct number of significant figures.
38. a. 4.84 m/2.4 s b. 60.2 m/20.1 s c. 102.4 m/51.2 s d. 168 m/58 s
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Practice Problems: 42 (37-38)Complete the following calculations. Round off the answers
to the correct number of significant figures.
38a. 4.84 m ÷ 2.4 s
4.84 m 2.4 s2.0 m/s
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Multiplication and division
Round the answer to the same number of significant figures as the original measurement with the fewest significant figures.
Practice Problems: 42 (37-38)Complete the following calculations. Round off the
answers to the correct number of significant figures.
38. b. 60.2 m/20.1 s
60.2 m20.1 s3.00 m/s
60
Multiplication and division
Round the answer to the same number of significant figures as the original measurement with the fewest significant figures.
Complete the following calculations. Round off the answers to the correct number of significant figures.
38. c. 102.4 m/51.2 s d. 168 m/58 s
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Your Turn...