Download - Chapter 1 Chemistry
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Chapter 1
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What is Chemistry? The study of matter and the changes it
undergoes.
A science that deal with matter, the
properties of matter, the structure of matter
and the changes in composition that matter
undergoes.
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Anything that occupies space and has mass.
Matter exist in 3 physical states:
What is Matter ?
Solid
Liquid
Gas
Ice
Water
Gas
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What is Pure substance ?
A form of matter that has a definite constant
composition and distinct properties.
Pure substance can be either A compound
or An element
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A compound …. • A substance composed of atoms of two or more
elements chemically united in fixed proportions.
• It can be separated into PURE components
(elements) by Chemical reactions.
Compound Compound Pure elements
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An element … • A substance that CANNOT be separated into
simpler substances by Chemical reactions.
•116 elements have been identified
• 82 elements occur naturally on Earth
gold, aluminum, lead, oxygen, carbon
• 34 elements have been created by scientists
technetium, americium, seaborgium
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What is A Mixture ?
A combination of two or more substances, which each substance retains its own composition and properties.
It can be either Homogenous or Heterogeneous
Mixture
Heterogeneous mixture Homogeneous mixture
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Homogenous mixture
– composition of the mixture is the same throughout.
Heterogeneous mixture
– composition is not uniform throughout.
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Physical reaction can be used to separate a mixture
into its pure components.
Magnet
Distillation
– based on boiling point Filtration – based on size
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What are Physical changes and Chemical changes? Physical change – a change in matter in which no new substance
is produced.
It may involved a change of state, and it can usually be reversed.
does not alter the composition or identity of a substance.
Chemical change – a change is matter in which one or more
new substance are produced.
It is difficult to reverse.
Examples: cooking, burning, rusting
HEAT
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Unit Of Measurement Standard units of measurement in chemistry is based on the metric
system, known as the International system, SI
The system is a decimal system of units for measurement of mass,
length, time, volume and other physical properties.
According to the system, Prefixes are used to express larger or
smaller value than the base units and these Prefixes are based on
power of 10
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Matter - anything that occupies space and has MASS. Mass – measure of the quantity of matter
SI unit of mass is the kilogram (kg)
1 kg = 1000 g = 1 x 103 g
Weight – force that gravity exerts on an object
weight = c x mass
on earth, c = 1.0
on moon, c ~ 0.1
A 1 kg bar will weigh
1 kg on earth
0.1 kg on moon
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Volume – SI derived unit for volume is cubic meter (m3)
1 cm3 = (1 x 10-2 m)3 = 1 x 10-6 m3
1 dm3 = (1 x 10-1 m)3 = 1 x 10-3 m3
1 L = 1000 mL = 1000 cm3 = 1 dm3
1 mL = 1 cm3
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Density – SI derived unit for density is kg/m3 1 g/cm3 = 1 g/mL = 1000 kg/m3
density = mass
volume d = m V
A piece of platinum metal with a density of 21.5 g/cm3
has a volume of 4.49 cm3. What is its mass?
d = m V
m = d x V = 21.5 g/cm3 x 4.49 cm3 = 96.5 g
Example:
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English to Metric Conversions If you know ONE conversion for each type of measurement, you can
convert anything!
You must memorize and
use these conversions:
Mass: 1 pound = 0.453 kg
Length: 1 inch = 2.54 cm
Volume: 1 quart (fluid) = 0.946 L
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Square and Cubic units Use the conversion factors you already know, but when
you square or cube the unit, don’t forget to cube the
number also!
Best way: Square or cube the ENTIRE conversion factor
Example:
Convert 4.3 cm3 to mm3
4.3 cm3 10 mm 3
1 cm ( ) =
4.3 cm3 103 mm3
13 cm3
= 4300 mm3
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273 K = 0 0C
373 K = 100 0C
32 0F = 0 0C
212 0F = 100 0C
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Convert 172.9 0F to degrees Celsius.
0F = x 0C + 32 9 5
0F – 32 = x 0C 9 5
x (0F – 32) = 0C
9 5
0C = x (0F – 32) 9 5
0C = x (172.9 – 32) = 78.3 9 5
Example:
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In chemistry, we measure and calculate many things, so we must be sure we
understand how to use the numbers.
Use of Number
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We use scientific notation when we deal with
very large and very small numbers.
Scientific Notation
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Scientific Notation The number of atoms in 12 g of carbon:
602,200,000,000,000,000,000,000
6.022 x 1023
The mass of a single carbon atom in grams:
0.0000000000000000000000199
1.99 x 10-23
N x 10n N is a number
between 1 and 10
n is a positive or
negative integer
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568.762
n > 0
568.762 = 5.68762 x 102
move decimal left
0.00000772
n < 0
0.00000772 = 7.72 x 10-6
move decimal right
Addition or Subtraction
1. Write each quantity with
the same exponent n
2. Combine N1 and N2
3. The exponent, n, remains
the same
4.31 x 104 + 3.9 x 103 =
4.31 x 104 + 0.39 x 104 =
4.70 x 104
Scientific Notation
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Multiplication
1. Multiply N1 and N2
2. Add exponents n1 and n2
(4.0 x 10-5) x (7.0 x 103) =
(4.0 x 7.0) x (10-5+3) =
28 x 10-2 =
2.8 x 10-1
Division
1. Divide N1 and N2
2. Subtract exponents n1 and n2
8.5 x 104 ÷ 5.0 x 109 =
(8.5 ÷ 5.0) x 104-9 =
1.7 x 10-5
Scientific Notation
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SIGNIFICANT FIGURES
There is some uncertainty in all measurement
Significant figure indicate the uncertainty in measurement
There are 2 kind of number:
1. Exact number – They are known to be absolutely accurate. Example is the exact number of people in class room
2. Measured number - significant figures relate the certainty of the measurement. As the number of significant figures increases, the more certain the measurement
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Example:
Mass of object may be written as 15 gram or 15.0 gram
15 gram- is said to have a higher uncertainty as it may result from 14 to 15.0 gram and therefore less accurate
15.0 gram - the ".0" tells us something interesting about the presumed accuracy of the measurement being made, that the measurement is accurate to the tenths place, but that there happen to be zero tenths
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Significant Figures
Some simple rules govern the use of significant figures
• Any digit that is not zero is significant
1.234 kg 4 significant figures
• Zeros between nonzero digits are significant
606 m 3 significant figures
• Zeros to the left of the first nonzero digit are not significant
0.08 L 1 significant figure
• If a number is greater than 1, then all zeros to the right of the decimal point are significant
2.0 mg 2 significant figures
• If a number is less than 1, then only the zeros that are at the end and in the middle of the number are significant
0.00420 g 3 significant figures
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How many significant figures are in each of
the following measurements?
24 mL 2 significant figures
3001 g 4 significant figures
0.0320 m3 3 significant figures
6.4 x 104 molecules 2 significant figures
560 kg 2 significant figures
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Rounding If you round off to a “5”, if the next digit is ODD, round up.
If it is EVEN, LEAVE IT!
• 3.016 rounded to hundredths is 3.02 (because the next digit (6) is 6 or more)
• 3.013 rounded to hundredths is 3.01 (because the next digit (3) is 4 or less)
• 3.015 rounded to hundredths is 3.02 (because the next digit is 5, and the
hundredths digit (1) is odd)
• 3.045 rounded to hundredths is 3.04 (because the next digit is 5, and the
hundredths digit (4) is even)
• 3.04501 rounded to hundredths is 3.05 (because the next digit is 5, but it is
followed by non-zero digits)
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Significant Figures In Calculation Addition or Subtraction
The answer cannot have more digits to the right of the decimal
point than any of the original numbers.
89.332 1.1 +
90.432 round off to 90.4
one significant figure after decimal point
3.70 -2.9133
0.7867
two significant figures after decimal point
round off to 0.79
If you round off to a “5”, if the next digit is ODD, round
up. If it is EVEN, round down (leave it)!
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Multiplication or Division
The number of significant figures in the result is set by the original
number that has the smallest number of significant figures
4.51 x 3.6666 = 16.536366 = 16.5
3 sig. figs round to
3 sig. figs
6.8 ÷ 112.04 = 0.0606926
2 sig. figs round to
2 sig. figs
= 0.061
Significant Figures In Calculation
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Significant Figures Exact Numbers
Numbers from definitions or numbers of objects are considered
to have an infinite number of significant figures
The average of three measured lengths; 6.64, 6.68 and 6.70?
6.64 + 6.68 + 6.70
3 = 6.67333 = 6.67
Because 3 is an exact number
= 7
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Precision and Accuracy are terms for quality of measurement
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Accuracy – how close a measurement is to the true value
Precision – how close a set of measurements are to each other
accurate
&
precise
precise
but
not accurate
not accurate
&
not precise
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Dimensional Analysis Method of Solving Problems
1. Determine which unit conversion factor(s) are needed
2. Carry units through calculation
3. If all units cancel except for the desired unit(s), then the
problem was solved correctly.
How many mL are in 1.63 L?
1 L = 1000 mL
1L
1000 mL 1.63 L x = 1630 mL
1L
1000 mL 1.63 L x = 0.001630
L2
mL
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The speed of sound in air is about 343 m/s. What is
this speed in miles per hour?
1 mile = 1609 m 1 min = 60 s 1 hour = 60 min
343 m s
x 1 mile
1609 m
60 s
1 min x
60 min
1 hour x = 767
mile
hour
meters to miles
seconds to hours
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