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Introduction to Chemistry
Matter
A mixture that has visibly different parts(Ex: Granite, chocolate chip cookie, can
be separated by physical properties.)
Heterogeneous Mixtures
Also known as solutions.Does not have visibly different parts, but
can be separated by physical props.(Ex: salt water, air)
Homogenous Mixtures
Mixtures
Composed of two or more elementsEx: Water, rust, carbon dioxide.
Can be broken down into elementsby their chemical properties.
Compounds
Composed of Protons,Neutrons and Electrons
Atoms
A substance that cannot be brokeninto smaller pieces and
maintain the properties of thatelement. (ex: Oxygen, iron)
Elements
Pure SubstancesHas its own uniques set of chemical
and physical properties
MatterAnything that has mass and volume
Measurements in science are handled using the metric system:
length - meters volume - liters
mass - grams
You can use very large or very small numbers like
5 000 000 g or 0.000 000 005 g5 000 000 g or 0.000 000 005 g
You can rewrite them in scientific notation
5 x 10 6 g or 5 x 10 -9 g5 x 10 6 g or 5 x 10 -9 g
Or you can use metric prefixes that represent exponential values of 10
5 Mg (M=106) or 5 ng (n = 10 -9)5 Mg (M=106) or 5 ng (n = 10 -9)
Prefix Symbol Meaning Exponential Notation
Exa E 1,000,000,000,000,000,000 1018
Peta P 1,000,000,000,000,000 1015
Tera T 1,000,000,000,000 1012
Giga G 1,000,000,000 109
Mega M 1,000,000 106
Kilo k 1,000 103
Hecto h 100 102
Deka da 10 101
----- ---- 1 100
Deci d 0.1 10-1
Centi c 0.01 10-2
Milli m 0.001 10-3
Micro 0.000001 10-6
Nano n 0.000000001 10-9
Pico p 0.000000000001 10-12
Femto f 0.000000000000001 10-15
Atto a 0.000000000000000001 10-18
Try on your own:
140 000 000 000
34 000
564 878 000
0.000 000 000 000 26
0.000 000 511
1.4 x 10 11
3.4 x 10 4
5.64878 x 10 8
2.6 x 10 -13
5.11 x 10 -7
Scientific Notation
Scientific Notation
A way to simplify very large or very small numbers
9 000 000 000 = 9.0 x 10 9
0.000 000 34 = 3.4 x 10 -7
Rules
1. You may only have one digit to the left of the decimal
2. That digit must be > 1 but < 9
3. Count the number of places you have moved the decimal from its original location and make it the exponent in
x 10 ?
If the decimal is moved left the exponent is +
If the decimal is moved right the exponent is -
: a.) 0.0023 g b.) 2.40 L c.) 2 centuries
d.) 250 inches e.) 432 ft f.) $28.04
Answers: a)2, b.) 3, c) infinite, d) 2, e)3, f) 4
How much do you remember about
significant digits??
Identify the number of sig figs in each of the following numbers.
Significant figures are a way to deal with uncertainty in Measurement.
Rules for significant figures:1. All nonzero digits are significant2. All zeros between non zero digits are significant3. Leading zeroes are NOT significant4. Trailing zeroes are NOT significant if there is no decimal point in the
number.5. Exact numbers such as counted numbers or numbers in a
Definition like 1 dozen =12 pieces do not have an affect on aCalculation, they are considered to have an infinite number ofSignificant figures.
Try again:
a) 347 mL
b) 0.0045 g
c) 100 oz
d) 85.0 mL
e) 4075 kg
f) 0.0560 m
g) 520. g
h) 8.000 g
i) 0.302 lb
j) 1006 m
Significant Figures in calculations
Muliplication and DivisionFind out how many sig figs are in each number in the problem.
2.36 x 1.631
3 4
Do the math 2.36 x 1.631 = 3.84916
Your answer must now be rounded off to the lowest
number of sig figs present in the problem, in this case, 3
Answer 3.85
You can only be as certain as your least certain instrument.
Practice (Rules for multiplication and Division are the same.)
1.) 12.3 x 3.6 x 0.4356 =
2.) 15 ÷ 4.21 =
3.) 3.145 x 103 x 6.1 x 1012 =
4.) 3.18 x 103 x 6.4 x 10-4 =
19.288368 =
3.56294537 =
1.91845 x 1016 =
2.0352 =
19
3.6
1.9 x 10 16
2.0
Addition and Subtraction
1. Line up numbers at decimal point, complete addition of subtraction
2. Where number is rounded depends on the least certain value, meaning the place value closest to the decimal.
12.364 + 121.1 = ?
12.364
121.1
133.464
Tenths place value is least certain so round at that place value
= 133.5
This buret is graduated by 0.1 mL increments. Your measurement can be certain to the tenths place value. Even though you can predict a number in the hundredths place value, it may be different depending on who you are. Therefore, it is an uncertain number.
Person Reading
1 20.15 mL
2 20.14 mL
3 20.16 mLSince each person has a variance of 0.01 mL, we say the measurement is
20.1X + 0.01 mL
This instrument is called an analytical balance. It reads to 4 places past the decimal point.
With uncertainty factored in, we would read this measurement as
89.2863 + 0.0001 g
On an instrument this sensitive the last number fluctuates constantly so even though it has a digital readout you may have it reading 2 numbers without settling on either one.
Completely random data.
Somewhat organized. All information collected in one location
Very organized. All information collected in expected location
Precision - Reproducibility for each trial of an experiment
Accuracy - Agreement with a known value
Precision and Accuracy
Temperature scales in science
Metric System - Celsius after the Swede Andres Celsius. He set freezing of H2O as 0°C and boiling at 100 °C then broke up the scale into 100 pieces.
Kelvin - Based on research in gas laws done by Lord Kelvin. He found that all gases eventually reach the same temperature if cooled, -273 °C . He set this as O K or Absolute Zero.
To convert between Celsius and Kelvin:
K = C + 273
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Some important people to know! (Because they discovered the particles in
an atom or something about them.)
Democritus
First credited with the “idea’ of the atom. Theorized that there were indivisible particles that
made up all matter. Idea was negated by Socrates/Aristotle (who was more popular) and was not accepted again until late 1700’s when John Dalton determined that matter is made up of smaller particles.
Dalton
Law of Conservation of Mass
QuickTime™ and aCinepak decompressor
are needed to see this picture.
Thomson
J.J. Thomson - Credited with the discovery of electrons. Thompson wanted to discover the makeup of the atom and so did experiments that led him to the discovery that there were negatively charged particles in the atom.
Since atom are neutral particles he also guessed that there was some positively charged component to the atom.
QuickTime™ and aCinepak decompressor
are needed to see this picture.
Robert Millikan - Determined the charge of an electron.
Rutherford
Ernest Rutherford - Discovered a large mass that was reflecting back electrons in an atom. Named it “nucleus”. Determined that the positive portion of an atom was located in the center.
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The pieces of an atom
Charge Location Size in relation to Each other
Protons
Neutrons
Electrons
Positive
Neutral
Negative
Nucleus
Nucleus
Electron Cloud
1 amu
1 amu
1/1879 amu
Reading the periodic table
Carbon
C6
12.011
Name
Symbol
Atomic Number
Atomic Mass
Atomic Symbol - An abbreviation of an element’s name. May or may not match the beginning of our language.
Carbon - C
Sodium- Na from latin Natrium
Lead- Pb from latin Plumbum
Atomic Number - Tells number of protons and electrons in an atom.
Atomic Mass - Sum of protons and neutrons in atom
A shortcut way of writing out this information is
12C6
This gives isotopic mass
atomic number
Chemical Symbol
Symbol Name Atomic #
Atomic Mass
Protons Neutrons Electrons
Selenium
25183.85
CaSodium
39
Symbol Element Atomic #
Isotope Mass
Protons Neutrons
Electrons
SO3 -2
CrO4 -2
Na+1
NH4+1
Fe +2
O2-2
Hg2+2
ClO-1
dichromate
aluminum
lead (IV)
potassium
bromide
selenide
cyanide
Density D = m/V
Know your volume formulas for 3D shapes
V=bh V=lwh V=4/3r3 V=1/3r2h
The density of osmium is 22.57 g/cm3. If a 1.00 kg rectangular block of osmium has two
dimensions of 4.00 cm x 4.00 cm, calculate the third dimension of the block.
An iron cylinder has a density of 7.874 g/cm3. If the cylinder weighs 53.25 g and has a height of 6.0 cm, Find the diameter of
the cylinder.
Elements were thought to be limited in number
Early version of the periodic table.
