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Uncertainty & significant figures

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Presentation on theme: "Uncertainty & significant figures"— Presentation transcript:

1 Uncertainty & significant figures
Feb 7, 2013

2 Accuracy & precision All measurements have some amount of uncertainties, also called “errors”. The uncertainty is generally one half of the smallest scale division. The uncertainty is the measure of the precision of an instrument. A precise measurement has more significant figures than less precise measurements.

3 Which measurement is precise?
5.3, 5.34, 6.001 3.12, 4.190,

4 Significant figures: Why need to learn?
Significant figures reflect how accurate and precise a measurement is. Eg. 11s - The time is accurate to the nearest second. What about 11.0s & 10.97s?

5 Uncertainties of some instruments

6 Adding/subtracting measurements: correct to the least accuracy
Add the measurements: 3.2 m and 5.16 m 100 m and 2.14 m Subtract the 1st measurement from the 2nd one 12.5 kg and kg 36.52 m and 4.35 m Multiplying & dividing …..

7 Multiplying/dividing
Keep the least significant figures! 32.5 x 1.2 =

8 What about multiplying a whole number?
It depends! Eg1. The thickness of a book is 2.1 cm. The total thickness of 3 books is: 3 x 2.1=6.3 cm Eg2. A student measured a basketball court of WSC. Its length is m and width is 23 m Its area is: 28.65 x 23 = sq. m its area is 660 sq. m (least s. f.)

9 Adding /subtracting measurements with uncertainties
Add/subtract the measurements Add the absolute uncertainties. Q1. Given that a = m, b = m a. find a+b b. complete the sentence: The sum of a and b is between _________ and __________.

10 Multiplying/dividing measurements?
Add relative uncertainties. Find axb. Convert the absolute uncertainties to relative uncertainties. Add the relative uncertainties. State your result with uncertainties.

11 0.05/20.23= =0.002 (1 s.f.) =0.2% 0.05/12.02= =0.004 (1 s.f.) =0.4% axb= %

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