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Measurements 1 Measurements A very concrete methods of dealing with the description and understanding of nature 2 Measurements A very concrete method of dealing with the description and understanding of nature Measurements give credibility to the interpretation of; •Theories •Laws •Principles •Hypothesis 3 Measurements A very concrete way of dealing with the description and understanding of nature Measurements give credibility to the interpretation of: •Theories •Laws •Principles •Hypothesis This credibility is directly related to the accuracy of the measurements 4 Estimation (uncertainty) • All measurements have some degree of estimation. 5 It would be difficult to measure with an certainty beyond a millimeter 6 The ruler has a limited amount of certainty. Thinner lines could increase the amount of certainty . 7 All measuring devices have a certain amount of uncertainty 8 The uncertainty of a measurement is determined by the a. precision of the measurement and b. accuracy of the measured value 9 Precision verses Accuracy • Precision in its strictest sense refers to the exactness to which the measuring instrument has been manufactured. • If the same measurement is repeated multiple times with the same instrument, will the measurement be the same each time? (repeatability) • smaller units would make the instruments more precise (exact_ • Accuracy is how close the measurement is to the true value • Influenced by : 1. person making the measurements 2. precision of the instrument 10 Measurement of Uncertainty • Estimated uncertainty is written with a ± sign; for example: • Percent uncertainty is the ratio of the uncertainty to the measured value, multiplied by 100: 11 12 Significant Figures • The number of significant figures is the number of reliably known digits in a number. It is usually possible to tell the number of significant figures by the way the number is written: • 23.21 cm has 4 significant figures • 0.062 cm has 2 significant figures (the initial zeroes don’t count) • 80 km is ambiguous – it could have 1 or 2 significant figures. If it has 3, it should be written 80.0 km. If it has 2 it should be written in scientific notation 8.0 x 101 km 13 Significant Figures • When multiplying or dividing numbers, the result has as many significant figures as the number used in the calculation with the fewest significant figures. • Example: 11.3 cm x 6.8 cm = 76.84 cm2 • 11.3 cm / 77cm = 0.1467 77 cm2 0.15 14 Adding and Subtracting Significant Figures • When adding or subtracting quantities, leave the same number of decimal places (rounded) in the answer as there are in the quantity with the least number of decimal places. • Examples 1) 2) 23.1 157 0.546 -5.5 1.45 25.096 151.5 152 25.1 15 1-4 Measurement and Uncertainty; Significant Figures Calculators will not give you the right number of significant figures; they usually give too many but sometimes give too few (especially if there are trailing zeroes after a decimal point). The top calculator shows the result of 2.0 / 3.0. The bottom calculator shows the result of 2.5 x 3.2. Scientific Notation • Scientific notation is the expression of a number in the “power of 10” 36,900 3.69 x 104 allows a number to expressed in significant digits in the coefficient eliminates the need to write multiple zeros Know how to add, subtract, multiply, and divide numbers expressed in scientific notation 17 Order of Magnitude Estimation • Method of making an approximate value for a measurement the number is rounded to one (1) significant figure and its power of 10 3,675 m ----- 4 x 103 m 5,000 m ----- 5 x 103 m added together 9 x 103 m 18 Order of Magnitude Estimation • Reasons for 1) Rapid estimation 2) Accurate calculation is not worth the time 3) Quick check of an accurate calculation to check for large errors a) Check the accuracy of the exponent 19 Order of Magnitude Example • Find the volume (V) of a lake o Lake has o Average depth of 65 m o Surface area of 52,500 m2 Volume = area x depth = (7 x 101m) x (5 x 104m2) = 3.5 x 106m3 20