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Using Scientific Measurements. Uncertainty in Measurements All measurements have uncertainty. 1.Measurements involve estimation by the person making the.

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Presentation on theme: "Using Scientific Measurements. Uncertainty in Measurements All measurements have uncertainty. 1.Measurements involve estimation by the person making the."— Presentation transcript:

1 Using Scientific Measurements

2 Uncertainty in Measurements All measurements have uncertainty. 1.Measurements involve estimation by the person making the measurement. 2.Measuring devices are limited in their precision

3 Accuracy and Precision Accuracy – the closeness of measured values to the true or accepted value Precision – the closeness of repeated measurements of the same quantity

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5 Percent Error Used to compare measured values to the true or accepted value.

6 Percent Error Sample Problems 1.Calculate the percent error in a length measurement of 4.25 cm if the correct value is 4.08 cm. 2.The actual density of a certain material is 7.44 g/cm 3. A student measures the density of the same material as 7.30 g/cm 3. What is the percent error of the measurement

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8 Counting Significant Figures Determine the number of significant figures in each of the following numbers: 0.003042 1.4030 1000 1000. 1000.00 0.060 50.0 10.47020 250. 65,321 2.00 x 10 2 1.004 x 10 5

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10 Rounding to Significant Figures Round each of the following numbers to three significant digits: 1,566,311 2.651 x 10 -3 84,592 0.0011672 0.07759

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12 Calculations with significant figures 1.Find the volume of a cube that is 3.23 cm on each edge. 2.What is the sum of 67.14 kg and 8.2 kg? 3.Calculate the density of a 17.982 g object that occupies 4.13 cm 3.

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