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Title: Measurements and Calculations Notes

1
Chapter 2

Measurements and Calculations Notes

2
I. SI (System of International) Units of
Measurements
3
A. Metric System

Mass is measured in kilograms (other mass units
grams, milligrams)
Volume in liters
Length in meters
Time in seconds
Chemical quantity in moles
Temperature in Celsius

4
B. Prefixes

Prefix Value Abbreviation
Example
Pico l x l0-12 p pm,
pg
Nano l x l0-9 n nm
Micro l x l0-6 ? ?g
Milli l x l0-3 m mm, mg
Centi l x l0-2 c cl, cg
Deci l x l0-1 d dl, dg
(stem liter, meter, gram)
Deka l x l01 da dag,
dal
Hecto l x l02 h hl,hm
Kilo l x l03 k kl,
kg
Mega l x l06 M Mg, Mm
Giga 1 X 109 G Gg
Tera 1 X 1012 T Tg

5
C. Derived Units

C. Derived Units combinations of quantities
area (m2), Density (g/cm3), Volume (cm3 or mL)
1cm3 1mL

6
D. Temperature- Be able to convert between
degrees Celcius and Kelvin.

Absolute zero is 0 K, a temperature where all
molecular motion ceases to exist. Has not yet
been attained, but scientists are within
thousandths of a degree of 0 K. No degree sign
is used for Kelvin temperatures.
Celcius to Kelvin K C 273
Convert 98 C to Kelvin 98 C 273 371 K

7
II. Density relationship of mass to volume D
M/V Density is a derived unit (from both mass
and volume)

For solids D grams/cm3
Liquids D grams/mL
Gases D grams/liter
Know these units

9
Density (cont.)

Example Problems
1. An unknown metal having a mass of 287.8 g was
added to a graduated cylinder that contained
31.47 ml of water. After the addition of the
metal, the water level rose to 58.85 ml.
Calculate the density of the metal.

10
Density (cont.)

2. The density of mercury is 13.6 g/mL. How
many grams would l.00 liter of mercury weigh?
3. A solid with a density of 11.3 g/ml has a
mass of 5.00g. What is its volume?

11
IV. Using Scientific Measurements
ACCURATE CORRECT PRECISE CONSISTENT

A. Precision and Accuracy
1. Precision the closeness of a set of
measurements of the same quantities made in the
same way (how well repeated measurements of a
value agree with one another).
2. Accuracy is determined by the agreement
between the measured quantity and the correct
value.
Ex Throwing Darts

12
B. Counting Significant Figures

When you report a measured value, it is assumed
that all the figures are correct except for the
last one, where there is an uncertainty of 1. If
your value is expressed in proper exponential
notation, all of the figures in the
pre-exponential value are significant, with the
last digit being the least significant figure
(LSF).
7.143 grams contains 4 significant figures

13
B. Counting Significant Figures

If that value is expressed as 0.007143, it still
has 4 significant figures. Zeros, in this case,
are placeholders. If you are ever in doubt about
the number of significant figures in a value,
write it in exponential notation.
Example of nail on page 46 the nail is 6.36cm
long. The 6.3 are certain values and the final 6
is uncertain! There are 3 significant figures in
6.36cm (2 certain and 1 uncertain). The reader
can see that the 6.3 are certain values because
they appear on the ruler, but the reader has to
estimate the final 6.

14
Significant Figures

Indicate precision of a measurement.
Recording Significant Figures (sig figs)
Sig figs in a measurement include the known
digits plus a final estimated digit

2.35 cm
15
The rules for counting significant figures are

1. Leading zeros do not count.
Ex 0.0005 cm
2. Captive zeros always count.
Ex 505 cm
3. Trailing zeros count only if there is a
decimal.
Ex 5,000 vs 5,000.

16
Give the number of significant figures in the
following values

a. 38.4703 mL b. 0.00052 g
c. 0.05700 s d. 6.19 x 101 years
Helpful Hint Convert to exponential form if you
are not certain as to the proper number of
significant figures.
A very important idea is that you DO NOT ROUND
OFF YOUR ANSWER UNTIL THE VERY END OF THE
PROBLEM.

17
Significant Figures Flowchart
Measurement
What is the number?
lt1
gt1
Before the
After the
Yes
No
No- not significant Ex 0.05
Yes, the zero is significant Ex 0.50
All the numbers are significant Ex 5.0
Trailing zeros are not significant Ex 50
18
C. Significant Figures in Calculations

In addition and subtraction, your answer should
have the same number of decimal places as the
measurement with the least number of decimal
places.
EX find the answer for 12.734
-3.0

Solution 12.734 has 3 figures past the decimal
point. 3.0 has only 1 figure past the decimal
point. Therefore, your final result, where only
addition or subtraction is involved, should round
off to one figure past the decimal point.
12.734
- 3.0
9.734 --------? 9.7

20
Add/Subtract additional example
224 g 130 g 354 g
224 g 130 g 354 g
3.75 mL 4.1 mL 7.85 mL
3.75 mL 4.1 mL 7.85 mL
? 350 g
? 7.9 mL
21
Multiplication Division with Significant Figures

2. In multiplication and division, your answer
should have the same number of significant
figures as the least precise measurement.
61 x 0.00745 0.45445 0.45 2SF
a. 32 x 0.00003987
b. 5 x 1.882
c. 47. 8823 X 9.322

22
Multiplication Division with Significant Figures

3. There is no uncertainty in a conversion
factor therefore they do not affect the degree
of certainty of your answer. The answer should
have the same number of SF as the initial value.
a. Convert 25. meters to millimeters.
b. Convert 0.12 L to mL.

23
E. Scientific Notation