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Transcript
Significant Digits
How big?
How small?
How accurate?
Scientific notation
Scientific notation is used to when dealing with very
small or very large numbers.
• Complete the chart below
Decimal notation
127
0.0907
0.000506
2 300 000 000 000
Scientific notation
1.27 x 102
9.07 x 10 –2
5.06 x 10 –4
2.3 x 1012
Rounding
• Ends in a number greater than 5: round up
• Ends in a number less than 5: unchanged
• Ends in 5: look at preceding number,
if odd: increase,
if even: no change
What time is it?
• Someone might say “1:30” or “1:28” or “1:27:55”
• Each is appropriate for a different situation
• In science we describe a value as having a
certain number of “significant digits”
• The # of significant digits in a value includes all
digits that are certain and one that is
uncertain
• “1:30” likely has 2, 1:28 has 3, 1:27:55 has 5
• There are rules that dictate the # of significant
digits in a value
Rules for Significant Digits
1. Numbers
•All digits from 1 to 9 (nonzero digits) are
significant.
5.87 = 3 significant digits
8981 = 4 significant digits
Zeroes
2. All zeros which are between non-zero digits are
always significant.
Ex. 901 (3), 321.09 (5), 1011(4)
3. Zeroes to the left are NOT significant, and serve only
to locate the decimal point.
Ex. 0.0987(3), 0.00001(1)
4. Zeros to the right MAY be significant, if it is also to
the right of the decimal place. To be significant, the
zero must follow a non-zero number.
Ex. 23400 (no, 3), 0.0670 (yes,3)
Answers to question A)
1.
3
2.83
2.
4
36.77
3.
3
14.0
4.
2
0.0033
5.
1
0.02
6.
4
0.2410
7.
4 2.350 x 10 –2
8.
6
1.00009
9. infinite
3
10. 5 0.0056040
Significant Digits Tips
• It is better to represent 100 as 1.00 x 102
• Alternatively you can underline the position of
the last significant digit. E.g. 100.
• This is especially useful when doing a long
calculation or for recording experimental results
• Don’t round your answer until the last step in a
calculation.
Adding with Significant Digits
• Adding a value that is much smaller than the
last sig. digit of another value is irrelevant
• When adding or subtracting, the # of sig. digits
is determined by the sig. digit furthest to the left
when #s are aligned according to their decimal.
• E.g. a) 13.64 + 0.075 + 67 b) 267.8 – 9.36
13.64
267.8
+ 0.075
– 9.36
+ 67.
81
80.715
258.44
B) Answers
i)
83.25
– 0.1075
83.14
ii)
4.02
+ 0.001
4.02
iii)
0.2983
+ 1.52
1.82
Multiplication and Division
• Use the same number of significant digits as
the value with the fewest number of significant
digits.
• E.g. a) 608.3 x 3.45 b) 4.8  392
a) 3.45 has 3 sig. digits, so the answer will as well
608.3 x 3.45 = 2098.635 = 2.10 x 103
b) 4.8 has 2 sig. digits, so the answer will as well
4.8  392 = 0.012245 = 0.012 or 1.2 x 10 –2
• Try question C and D on the handout (recall: for
long questions, don’t round until the end)
C), D) Answers
i) 7.255  81.334 = 0.08920
ii) 1.142 x 0.002 = 0.002
iii) 31.22 x 9.8 = 3.1 x 102 (or 310)
6.12 x 3.734 + 16.1  2.3
22.85208
+
7.0
= 29.9
ii) 0.0030 + 0.02 = 0.02
iii) 1700
+ 134000
iv) 33.4
Note: 146.1  6.487
+ 112.7
135700
= 22.522 = 22.52
+
0.032
=1.36 x105
146.132  6.487 = 22.5268
= 22.53
i)
Unit conversions
• Sometimes it is more convenient to express a
value in different units.
• When units change, basically the number of
significant digits does not.
E.g. 1.23 m = 123 cm = 1230 mm = 0.00123 km
• Notice that these all have 3 significant digits
• This should make sense mathematically since
you are multiplying or dividing by a term that
has an infinite number of significant digits
E.g. 123 cm x 10 mm / cm = 1230 mm
• Try question E on the handout