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Significant digits a.k.a. Significant figures

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Significant digits a.k.a. Significant figures Objectives At the end of this lesson the students will be able to: State why significant digits are important. – PowerPoint PPT presentation

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Title: Significant digits a.k.a. Significant figures


1
Significant digitsa.k.a. Significant figures
  • Objectives
  • At the end of this lesson the students will be
    able to
  • State why significant digits are important.
  • List the rules for significant digits.
  • Calculate problems and record answers with
    significant digits.

2
Why are significant digits or significant figures
important?
  • The science teachers at a Baltimore County
    middle school wished to acquire a steel cube, one
    cubic centimeter in size to use as a visual aid
    to teach the metric system. The machine shop they
    contacted sent them a work order with
    instructions to draw the cube and specify its
    dimensions. On the work order, the science
    supervisor drew a cube and specified each side to
    be 1.000 cm. When the machine shop received this
    job request, they contacted the supervisor to
    double check that each side was to be one
    centimeter to four significant figures. The
    science supervisor, not thinking about the
    "logistics", verified four significant figures.
    When the finished cube arrived approximately one
    month later, it appeared to be a work of art. The
    sides were mirror smooth and the edges razor
    sharp. When they looked at the "bottom line",
    they were shocked to see the cost of the cube to
    be 500! Thinking an error was made in billing,
    they contacted the machine shop to ask if the
    bill was really 5.00, and not 500. At this
    time, the machine shop verified that the cube was
    to be made to four significant figure
    specifications. It was explained to the school,
    that in order to make a cube of such a high
    degree of certainty, many man hours were used.
    The cube had to be ground down, and measured with
    calipers to within a certain tolerance. This
    process was repeated until three sides of the
    cube were successfully completed. The number of
    man hours to prepare the cube cost 500. The
    science budget for the school was wiped out for
    the entire year. This school now has a steel cube
    worth its weight in gold, because it is a very
    certain cubic centimeter in size.

3
Remember
  • Significant digits, which are also called
    significant figures, are very important in
    Physics.
  • Each recorded measurement has a certain number of
    significant digits.
  • Calculations done on these measurements must
    follow the rules for significant digits.
  • The significance of a digit has to do with
    whether it represents a true measurement or not.
  • Any digit that is actually measured or estimated
    will be considered significant.
  • Placeholders, or digits that have not been
    measured or estimated, are not considered
    significant.

4
It is very important, however, to know and
understand the precision of measurement that we
use in our daily lives.
5
Rules for Significant Digits
  • Digits from 1-9 are always significant.
  • Zeros between two other significant digits are
    always significant
  • One or more additional zeros to the right of both
    the decimal place and another significant digit
    are significant.
  • Zeros used solely for spacing the decimal point
    (placeholders) are not significant.

6
Examples of Significant Digits
EXAMPLES OF SIG. DIG. COMMENT
453 kg All non-zero digits are always significant.
5057 L Zeros between 2 sig. dig. are significant.
5.00 Additional zeros to the right of decimal and a sig. dig. are significant.
0.007 Placeholders are not sig.
7
  • Each number that we record as a measurement
    contains a certain number of significant digits,
    which show accurate or estimated digits. When we
    do calculations our answers cannot be more
    accurate than the measurements that they are
    based on. We must be careful to follow the
    following rules whenever we perform calculations
    in Physics class.

8
  • Multiplying and Dividing
  • RULE When multiplying or dividing, your answer
    may only show as many significant digits as the
    measurement showing the least number of
    significant digits.
  • Example
  • When multiplying 22.37 cm x 3.10 cm x 85.75 cm
    5946.50525 cm3 we look to the original problem
    and check the number of significant digits in
    each of the original measurements
  • 22.37 shows 4 significant digits.
  • 3.10 shows 3 significant digits.
  • 85.75 shows 4 significant digits.
  • Our answer can only show 3 significant digits
    because that is the least number of significant
    digits in the original problem.
  • Our calculators show the answer as 5946.50525
    with 9 significant digits, we must round to the
    tens place in order to show only 3 significant
    digits. Our final answer becomes 5950 cm3.

9
  • Adding and Subtracting
  • RULE When adding or subtracting your answer can
    only show as many decimal places as the
    measurement having the fewest number of decimal
    places.
  • Example
  • When we add
  • 3.76 g 14.83 g 2.1 g 20.69 g
  • We look to the original problem to see the
    number of decimal places shown in each of the
    original measurements. 2.1 shows the least number
    of decimal places. We must round our answer,
    20.69, to one decimal place (the tenth place).
    Our final answer is 20.7 g

10
Calculators and Significant Digits
  • Many calculators display several additional,
    meaningless digits, some always display only
    two.  Be sure to record your answer with the
    correct number of significant digits.  Calculator
    answers are not rounded to significant digits.
    You will have to round-off the answer to the
    correct number of digits.
  • Note that significant digits are only associated
    with measurements there is no uncertainty
    associated with counting.  If you counted four
    laps for a runner and measured the time to be
    2.34 minutes.  The number of laps does not have
    an uncertainty, but the measured time does.

11
  • When doing multi-step calculations, do not clear
    your calculator.
  • Round your final answer to the smallest number of
    significant digits of any of the values in the
    original question.

12
  • The Two Greatest Sins Regarding Significant
    Digits
  • Writing more digits in an answer (intermediate or
    final) than justified by the number of digits in
    the data.
  • Rounding-off, say, to two digits in an
    intermediate answer of a multi-step calculation,
    and then writing three digits in the final
    answer.

13
Sample problems
  • Instructions work the problems. When you are
    ready to check your answers, go to the next page.
  • 1.    37.76 3.907 226.4  ...
  • 2.    319.15 - 32.614  ...
  • 3.    104.630 27.08362 0.61  ...
  • 4.    125 - 0.23 4.109  ...
  • 5.    2.02 2.5  ...
  • 6.    600.0 / 5.2302  ...
  • 7.    0.0032 273  ...
  • 8.    (5.5)3  ...
  • 9.    0.556 (40 - 32.5)  ...
  • 10.    45 3.00  ...

14
Answers to Sample Problems
  • 1.    37.76 3.907 226.4  268.1
  •  2.    319.15 - 32.614  286.54
  •  3.    104.630 27.08362 0.61  132.32
  •  4.    125 - 0.23 4.109  129
  •  5.    2.02 2.5  5.1
  •  6.    600.0 / 5.2302  114.7
  •  7.    0.0032 273  0.87
  •  8.    (5.5)3  1.7 x 102
  •  9.    0.556 (40 - 32.5)  4.2
  • 10.   45 3.00  1.4 x 102
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