no slide titlesi base units length meter m mass kilogram kg time second electrical current ampere...
TRANSCRIPT
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Measurement
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International System of Units (SI)
• revised metric system proposed in 1960
• widely used in science
• 7 base units
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SI Base Units
Length Meter mMass Kilogram kgTime Second Electrical current Ampere Temperature Kelvin KAmount of Substance Mole molLuminous intensity Candela cd
s or secA or amp
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SI Prefixes
Tera- T 1012 Deci- d 10–1
Giga- G 109 Centi- c 10–2
Mega- M 106 Milli- m 10–3
Kilo- k 103 Micro- µ 10–6
Nano- n 10–9
Pico- p 10–12
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Derived units in SI
measured in terms of one or more base units
= 1000 (dm3 )
1dm3 = 1 liter ( L)
= (m3)volumem x m x m
= (g/cm3) = (g/ml)mass/volumedensity
= (kg/dm3)
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Volume
• The most commonly used metric units for volume are the liter (L) and the milliliter (mL).– A liter is a cube
1 decimeter (dm) long on each side.
– A milliliter is a cube 1 centimeter (cm) long on each side.
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Density
The mass of a substance that occupies one unit of volume
massvolume
Density =kg
dm3=
g
cm3=
g
ml=
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Example
What is the density of a piece of concrete that has a mass of 8.76 g and a volume of 3.07 cm3
massvolume
Density =8.76g
3.07 cm3= = 2.85g/cm3
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Temperature
There are three systems for measuring temperature that are widely used:
Kelvin scale
Celsius scale
Fahrenheit scale
K = C˚ + 273.15
C˚ = K - 273.15
F˚ = C˚ (9/5) +32
C˚ = ( F˚ - 32) 5/9Used mainly in engineering
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TemperatureKelvin scale Celsius scale Fahrenheit scale
373 K
273 K
233 K
100˚C
0˚C
- 40˚C
212˚F
32˚F
-40˚F
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Handling Numbers
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In chemistry we deal with very large and very small numbers
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Scientific Notation
is a way of dealing with numbers that are either extremely large or extremely small
N x 10n
where N is a number between 1 and 10 and n is an exponent that can be a positive or negative integer
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Exponents
0.001 = = 10-3
10 1
10 1
10 1
x x
10 x 10 = 102100 =
0.1 =10 1
= 10-1
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Example
Express 568.762 in scientific notation.
568.762 = 5.68762 x 102
note that the decimal point moved to the left by two places and n = 2.
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Example
Express 0.00000772 in scientific notation.
0.00000772 = 7.72 x 10–6
note that the decimal point moved to the right by six places and n = –6.
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Scientific Notation
To add or subtract using scientific notation, first write each quantity with the same exponent n. Then add or subtract the N parts of the numbers; the exponent parts remain the same.
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Example
(4.31 x 104) + (3.9 x 103) =
= 4.70 x 104
(4.31 x 104) + (0.39 x 104)
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Scientific Notation
To multiply numbers expressed in scientific notation, multiply the N parts of the numbers in the usual way, but add the exponent n’s together.
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Example
(8.0 x 104) x (5.0 x 102) = 40.0 x 106
= 4.0x 107
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Uncertainty in measurement
21 3.4.3.2.1 .5
2.36mm 2.37mm
middle value ?
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Uncertainty in measurement
21 3.4.3.2.1 .5
2.36mm 2.37mm
middle value ? There is uncertainty with this degree of accuracy
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Uncertainty in Measurements
Different measuring devices have different uses and different degrees of accuracy.
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Accuracy versus Precision
• Accuracy refers to the proximity of a measurement to the true value of a quantity.
• Precision refers to the proximity of several measurements to each other.
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Accuracy - the closeness of a measurement to the true value
precision - the reproducibility of a series of measurements
A series of measurements can be precise with out being accurate
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Uncertainty in measurement
21 3.4.3.2.1 .5
2.37mmThe first two measured numbers are called certain digits
The the digit to the right of the 3 is called an uncertain digit
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a measurement always has some degree of uncertainty
We customarily report a measurement by recording all the certain digits plus the first uncertain digit.
these numbers are called significant figures
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Significant Figures
• The term significant figures refers to digits that were measured.
• When rounding calculated numbers, we pay attention to significant figures so we do not overstate the accuracy of our answers.
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Significant Figures
21 3.4.3.2.1 .5
2.37mmthree significant figures in this measurement
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What is the difference between the measurements 25.00 ml and 25. ml .
Example
They convey different information:
25.00 ml a volume between 24.99ml and 25.01 ml
25. ml a volume between 24. ml and 26.ml
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Rules for Significant Figures 1. digits other than zero are always significant
2. one or more final zeros used after the decimal point are always significant
3 significant figures67.8 g98. g 2 significant figures
4.700 m
82.0 m
4 significant figures
3 significant figures
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3. zeros between two other significant digits are always significant
4. zeros used solely for spacing the decimal point are not significant
4 significant figures5.029 cm
3 significant figures
2 significant figures0.00783 ml0.34 g/ml
Rules for Significant Figures
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If the zeros follow nonzero digits,there is ambiguity if no decimal point is given
Rules for Significant Figures
300 N significant figures ?300. N 3 significant figures
300.0 N 4 significant figures
Avoid ambiguity by expressing measurements in scientific notation
3.0 x 102 N 2 significant figures
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Significant Figures
• When addition or subtraction is performed, answers are rounded to the least significant decimal place.
• When multiplication or division is performed, answers are rounded to the number of digits that corresponds to the least number of significant figures in any of the numbers used in the calculation.
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Adding Significant Figures in Calculations
A result can only be as accurate as the least significant measurement
3 significant figures
4.37 g+ 1.002 g
5.372 g
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Multiplying Significant Figures in Calculations
A result can only be as accurate as the least significant measurement
Volume = l x w x h = (1.87cm)(1.413cm)(1.207cm)
= 3.19cm3
3 significant figures
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Using Significant Figures in Calculations
A result can only be as accurate as the least significant measurement
1 significant figures
21.mm - 13.8mm = 7.mm
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Significant Figure RulesPlus or minus ( ) notation may be used to express the amount of uncertainty there is in a measurement
-+
51.56 cm3 -+ 0.02 cm3
largest possible value51.58 cm3
smallest possible value51.54 cm3
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Rounding Off Rules
If the digit following the last reportable digit is:
In a series of calculations, carry the extra digits through the final result, then round.
• 4 or less, you drop it 1.33 to 1.3
• 5 or more, you increase the last reportable digit by one
1.36 to 1.4
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Dealing with Propagation of Error
If the digit following the last reportable digit is:
• 4 or less, you drop it
• 6 or more, you increase the last reportable digit by one • 5, you use the arbitrary odd-even rule
If the last reportable digit is even, you leave it unchanged
If the last reportable digit is odd, you increase it by one.
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Example
Round off 108.75 and 108.65 to four significant figures.
108.8
108.6
108.75 =
odd
108.65 =
even
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Percent ErrorObserved value
the value based on laboratory measurements
True valuethe value based on accepted references
Absolute errorthe difference between the observed value and the true value
(observed value - true value)
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Percent Error
% Error =absolute error
true valuex 100%
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Examplethe boiling point of methanol is 65˚C. Your measured boiling point of methanol is 66.0˚C.what is the percent error in your measurement.
% Error =absolute error
true valuex 100%
% Error =66˚C -65˚C
65˚Cx 100%
= 1. 5%
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Dimensional Analysis
we use dimensional analysis to convert one quantity to another.
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MatterAnd
Measurement© 2012 Pearson Education, Inc.
Dimensional Analysis
Use the form of the conversion factor that puts the sought-for unit in the numerator:
Given unit × = desired unitdesired unitgiven unit
Conversion factor
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Dimensional analysis
2.54cm = 1 in dividing both sides of the equation by 2.54cm2.54cm2.54cm
1 in2.54cm
=1 we create an expression called a convertion unit
1 in
2.54cm=1
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Example
What is the length of a 2.85cm pin in inches?
2.85 cm = 1.12 in1in2.54cmx
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Example
Where were you a billion seconds ago ?
1x109 sec24 hours
1 dayx
60 min
1 hourx
365 days
1 yearx = 31.7 years
1 min
60 secx