ACCURACY A description of how close measurement is to the true or accepted value of a measurement. Error or Absolute Error = Observed value – accepted.

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Presentation transcript:

ACCURACY A description of how close measurement is to the true or accepted value of a measurement. Error or Absolute Error = Observed value – accepted value E = O-A

Error or Absolute Error = Observed value – accepted value E = O-A E = 10.2 cm – 10.5 cm E = -0.3 cm E = 10.8cm – 10.5 cm E = 0.3 cm

% ERROR = observed value – accepted value X 100% accepted value % E = O – A x 100% A % E can have + or – value What does negative value mean?

PRECISION The exactness of a measurement. How closely several measurements of the same quantity made in the same way agree with one another.

PRECISION (Uncertainty) 1.Determine average of values 2. Subtract the average from each measured value. (deviation) 3. Add the absolute values of the deviations. (sum of deviations from average) 4. Average of the sum = uncertainty 5. Report result as Average + uncertainty cm cm

ACCURACY AND PRECISION

Significant Figures = digits of measured value known with certainty and one estimated (doubtful)

Significant Figures What numbers are considered significant? – All non-zero numbers are significant. – Zeroes between significant digits are significant – If there is no decimal point, then trailing zeroes are not significant – If there is a decimal point, then all trailing zeroes are significant – If a number is less than one, then the first significant figure is the first non-zero digit after the decimal point

Why are Sig Figs so Important? We have to interpret measured values made by others A way to communicate accuracy and precision of data without discussion

Trick to Remember

Operations with Sig Figs Addition/Subtraction Multiplication/Division – Worksheet on operations

Practice 1) g g = 2) 8.2 cm cm = 3) m x 3.44 m = 4) g ÷ ml = 5) 1.36 x x 5.02 x = 6) How many grams are in 882  g ?