Garrett, Jack, On-Air Host has reference to this Academic Journal, PHwiki organized this Journal Accuracy in addition to Precision in the Lab Precision in addition to Accuracy Errors in Scientific Measurements Precision – Refers to reproducibility or How close the measurements are to each other. Accuracy – Refers to how close a measurement is to the real or true value. Systematic error – produces values that are either all higher or all lower than the actual value. R in addition to om Error – in the absence of systematic error, produces some values that are higher in addition to some that are lower than the actual value. Good accuracy Good precision Poor accuracy Good precision Good accuracy Poor precision Poor accuracy Poor precision

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Balances 0.1 mg precision Accuracy determined by calibration Graduated Cylinder Correct way to read a graduated cylinder Estimate the volume in the graduated cylinder Most would read between 19.1 to 19.3 mL No one would properly read the volume as high as 19.5 mL or as low as 19.0 mL. No one could reasonably read the volume to the 1/100s digit. Graduated Cylinder Incorrect way to read a graduated cylinder

Burette Spectronic-20 Estimate the reading on the upper scale Most would read between 35.4 to 35.6 %T No one would properly read the scale as high as 36.0 or as low as 35 %T. The Number of Significant Figures in a Measurement Depends Upon the Measuring Device A linearly calibrated instrument can usually be read to 1 digit more precision than the engraved calibration

Significant Digit Rules in addition to Conventions A significant figure (also called a significant digit) in a measurement is one which is known to some level of precision. The rules presented here are simplifications of a more complete statistical analysis in addition to should be used to imply a certain confidence in a written numerical value. These rules are not infallible. To avoid round-off errors when making multiple-step calculations, carry one or two extra significant figures in the intermediate calculations. Round off the answer to the appropriate number of significant figures at the very end. Rules: All nonzero digits in a reported value are significant. 422 g has 3 significant figures (SFs) Zeroes between nonzero digits are significant. 2003 miles has 4 SFs Trailing zeroes after the decimal point are significant. -2.10 J has 3 SFs 0.110 g has 3 SFs Leading zeroes after the decimal point are not significant. 0.00214 g has 3 SFs Trailing zeroes in a number without a decimal point lead to ambiguity in addition to are usually assumed not to be significant. Eliminate the ambiguity by converting to scientific notation (exponential notation). 96,500 C (3, 4, or 5 SFs) might be 9.650 x 104 C (4 SFs) H in addition to ling Significant Figure in Calculations Addition/Subtraction: The number of decimal digits in the final answer is the same as the minimum number of decimal digits in any measurement.