chapter 4 atoms and elements tro's "introductory chemistry", chapter 4 2 experiencing...
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Chapter 4Atoms and Elements
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Experiencing Atoms• Atoms are incredibly small, yet they compose
everything.• Atoms are the pieces of elements.• Properties of the atoms determine the properties
of the elements.
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The Divisibility of Matter
• Greek Philosophers, Leucipus and Democritus proposed:Upon division of matter, eventually a particle is
reached which can no longer be divided.Matter was composed of small, indivisible
particles called ‘atomos’ or ‘atoms’atomos is greek for ‘invisible’
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Dalton’s Atomic Theory1. Each Element is composed of tiny,
indestructible particles called atoms.
2. All atoms of an element are identical. They have the same mass, volume, and other
physical and chemical properties.
3. Atoms combine in simple, whole-number ratios to form molecules of compounds.
Because atoms are unbreakable, they must combine as whole atoms.
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Some Notes on Charges• There are two kinds of
charges, called positive and negative.
• Opposite charges attract.+ attracted to –.
• Like charges repel.+ repels +.– repels –.
• To be neutral, something must have no charge or equal amounts of opposite charges.
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The Atom Is Divisible
• Work done by J. J. Thomson proved that the atom had pieces called electrons.
• Thomson found that electrons are much smaller than atoms and carry a negative charge.The mass of the electron is 1/1836th the mass of a
hydrogen atom.The charge on the electron is the fundamental unit
of charge that we call –1 charge unit.
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Thomson’s Model of the Atom
1. The atom is breakable.
2. The atom’s structure has electrons suspended in a positively charged electric field. It must have a positive charge to
balance a negative charge of electrons.
3. The mass of the atom is due to the mass of the electrons
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Rutherford’s Experiment
• Rutherford was Thomson’s student and supported the Thomson’s model of the atom
• Rutherford designed an experiment to confirm Thomson’s model
• Used positively charged particles ( -a particles) in his experimnet
Thomson (left), Rutherford (right)
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Rutherford’s Experiment
Lead box
Radioactivesample
Goldfoil
Fluorescentscreen
Alpha particlesstriking screen
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Rutherford’s Results
• Over 98% of the a particles went straight through.
• About 2% of the a particles went through, but were deflected by large angles.
• About 0.01% of the a particles bounced off the gold foil.
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Rutherford’s Conclusions
• Atom mostly empty space.Because almost all the particles went straight through.
• Atom contains a dense particle that was small in volume, compared to the atom, but large in mass. Because of the few particles that bounced back.
• This dense particle was positively charged.Because of the large deflections of some of the particles.
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Nuclear Atom
•
••
•
• ••
• •••
•
•
•
• •
••
•
••
•
Plum PuddingAtom
If atom was likea plum pudding, all the a particles
should go straight through.
Most a particles go straight through.
Some a particles go through, but are deflected.
Very few of the a particles
do not go through.
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Rutherford’s Interpretation—The Nuclear Model
1. The atom contains a tiny dense center called the nucleus. The amount of space taken by the nucleus is only about
1/10 trillionth the volume of the atom.
2. The nucleus has essentially the entire mass of the atom. The electrons weigh so little they contribute practically no
mass to the atom.
3. The nucleus is positively charged. The amount of positive charge balances the negative charge of
the electrons.
4. The electrons are dispersed in the empty space of the atom surrounding the nucleus. Like water droplets in a cloud.
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Structure of the Nucleus• Rutherford proposed that the nucleus had a particle that
had the same amount of charge as an electron but opposite sign.Based on measurements of the nuclear charge of the elements.
• These particles are called protons.Protons have a charge of +1 c.u. and a mass of 1 amu.
• Since protons and electrons have the same amount of charge, for the atom to be neutral, there must be equal numbers of protons and electrons.
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Some Problems• How could beryllium have 4 protons stuck
together in the nucleus?Shouldn’t they repel each other?
• If a beryllium atom has 4 protons, then it should weigh 4 amu, but it actually weighs 9.01 amu! Where is the extra mass coming from?Each proton weighs 1 amu.Remember: The electron’s mass is only about
0.00055 amu and Be has only 4 electrons—it can’t account for the extra 5 amu of mass.
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There Must Be Something Else• To answer these questions, Rutherford
proposed that there was another particle in the nucleus—it is called a neutron.
• Neutrons have no charge and a mass of 1 amu.The masses of the proton and neutron are both
approximately 1 amu.
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The Modern Atom• We know atoms are composed
of three main pieces—protons, neutrons, and electrons.
• The nucleus is located at the center of the atom and contains protons and neutrons.
• The electrons are located outside the nucleus.
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Subatomic
particle
Mass
g
Mass
amu
Location
in atom
Charge Symbol
Proton 1.67262
x 10-24
1.0073 nucleus 1+ p, p+, H+
Electron 0.00091
x 10-24
0.00055 empty space 1 e, e-
Neutron 1.67493
x 10-24
1.0087 nucleus 0 n, n0
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Example—An Atom Has 20 Protons. Determine if Each of the Following
Statements Is True or False?• If it is a neutral atom, it will have
20 electrons.
• If it also has 20 neutrons, its mass will be approximately 40 amu.
• If it has 18 electrons, it will have a net 2 charge.
True
True
False
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Elements• Each element has a unique number of protons in its
nucleus.All carbon atoms have 6 protons in their nuclei.
• The number of protons in the nucleus of an atom is called the atomic number.Z is the short-hand designation for the atomic number. Because each element’s atoms have a unique number of
protons, each element can be identified by its atomic number.
• Each element has a unique name and symbol.The symbol is either one or two letters
One capital letter or one capital letter + one lower case letter.
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The Periodic Table of ElementsAtomic number
Atomic mass
Element symbol
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The Periodic Law and the Periodic Table
Mendeleev and the Periodic Table• Arranged elements in order of increasing atomic
mass• Observed a repeating pattern of properties
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The Periodic Law and the Periodic Table• Periodic Law—When the elements are arranged in order of
increasing atomic mass, certain sets of properties recur periodically.
• put elements with similar properties in the same column
• used pattern to predict properties of undiscovered elements
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Mendeleev’s Predictions for Ekasilicon (Germanium)
Property Silicon’s property
Tin’s property
Predicted Value
Measured Value
Atomic mass 28 118 72
Color Grey White Grey
Density 2.32 7.28 5.5
Reaction w/ Acids & base
Base only Acid only Resists both
Oxides SiO2 SnO2 Eks1O2
5.4
72.5
Grey-white
Resists both
GeO2
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The Modern Periodic Table• Based on Mendeleev’s landmark contributions, the
modern periodic table was founded
• The elements were arranged according to their atomic numbers (# of protons) and not according to their atomic masses
• Based on their properties, these elements were divided in to three large familiesMetalsNonmetalsMetalloids
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Metals
• solids at room temperature, except Hg• reflective surface
shiny• conduct heat and electricity• malleable
can be shaped• ductile
drawn or pulled into wires• About 75% of the elements are metals.• lower left on the table
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Nonmetals• found in all three states
• poor conductors of heat
• poor conductors of electricity
• Solids are brittle.
• upper right on the tableexcept H
Chlorine, Cl2(g)
Sulfur, S(s)
Bromine, Br2(l)
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Metalloids
• show some properties of metals and some of nonmetals
• also known as semiconductors
Properties of SiliconShiny as a metal
Conducts electricity as a metal
Brittle as a nonmetal
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Example—Classify Each Element as Metal, Nonmetal, or Metalloid.
• Xenon, Xe
• Tungsten, W
• Bromine, Br
• Arsenic, As
• Cerium, Ce
Nonmetal
Metal
Nonmetal
Metalloid
Metal
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The Modern Periodic Table
• Elements with similar chemical and physical properties are in the same column.
• Columns are called Groups or Families.Designated by a number and letter at top.
• Rows are called Periods.• Each period shows the pattern of properties
repeated in the next period.
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The Modern Periodic Table, Continued
• Main group = representative elements = “A” groups.
• Transition elements = “B” groups.All metals.
• Bottom rows = inner transition elements = rare earth elements.MetalsReally belong in periods 6 and 7.
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= Alkali metals
= Alkali earth metals
= Noble gases
= Halogens
= Lanthanides
= Actinides
= Transition metals
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Important Groups—Hydrogen• Nonmetal.• Colorless, diatomic gas.
Very low melting point and density.
• Reacts with nonmetals to form molecular compounds.HCl is an acidic gas.H2O is a liquid.
• Reacts with metals to form hydrides.Metal hydrides react with water to form H2.
• hydrogen halides dissolve in water to form acids.
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Group 1A: Alkali Metals
• Hydrogen is usually placed here, though it doesn’t belong.
• Soft, low melting points, low density.
• Very reactive• Tend to form water soluble
compoundsColorless solutions.
• React with water to form basic (alkaline) solutions and H2:
2 Na + 2 H2O 2 NaOH + H2 Releases a lot of heat.
lithium
sodium
potassium
rubidium
cesium
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Groups 2A: Alkaline Earth Metals• Harder, higher melting, and denser
than alkali metals.
• Reactive, but less than the corresponding group I A metals.
• Form stable, insoluble oxides.
• Oxides are basic = alkaline earth.
• Reactivity with water to form H2:Be = none, Mg = steam, Ca, Sr, Ba = cold water.
magnesium
calcium
beryllium
strontium
barium
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Group 7A: Halogens
• Nonmetals.
• F2 and Cl2 gases, Br2 liquid, and I2 solid.
• All diatomic.
• Very reactive.
bromine
iodine
chlorine
fluorine
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Group 8A: Noble Gases• All gases at room
temperature.
• Very low melting and boiling points.
• Very unreactive, practically inert.
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Charged Atoms• The number of protons determines the element.
All sodium atoms have 11 protons in the nucleus.
• In a chemical change, the number of protons in the nucleus of the atom doesn’t change.During radioactive and nuclear changes, atoms do
transmute.
• Atoms in a compound are often electrically charged, these are called ions.
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Ions• Atoms acquire a charge by gaining or losing electrons.
Not protons!• Ion charge = # protons – # electrons.• Ions with a positive charge are called cations.
More protons than electrons.Form by losing electrons.
• Ions with a negative charge are called anions.More electrons than protons.Form by gaining electrons.
• Chemically, ions are much different than the neutral atoms.Because they have a different structure.
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Atomic Structures of Ions• Nonmetals form anions.• For each negative charge, the ion has 1 more electron
than the neutral atom.F = 9 p+ and 9 e; F─ = 9 p+ and 10 e.P = 15 p+ and 15 e; P3─ = 15 p+ and 18 e.
• Anions are named by changing the ending of the name to –ide.
fluorine F + 1e F─ fluoride ionoxygen O + 2e O2─ oxide ion
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Atomic Structures of Ions, Continued• Metals form cations.
• For each positive charge the ion has 1 less electron than the neutral atom.Na atom = 11 p+ and 11 e; Na+ ion = 11 p+ and 10 e.Ca atom = 20 p+ and 20 e; Ca2+ ion = 20 p+ and 18 e.
• Cations are named by adding ion after the name of the metal.
sodium Na Na+ + 1e sodium ioncalcium Ca Ca2+ + 2e calcium ion
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Example 4.5—Find the Number of Protons
and Electrons in Ca2+.
For cations, p+ > e−, so the answer is reasonable.Check:
Z = 20 = #p+Solution:
ion charge = #p+ − #e−
Solution Map:
Relationships:
Ca2+
# p+, # e-, # n0
Given:Find:
symbol atomicnumber
# p+ # e-
ion charge = #p+ − #e−
+2 = 20 − #e−
─18 = ─ #e−
18 = #e−
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Practice—Fill in the Table.
Ion p+ e-
Cl-1
K+1
S-2
Sr+2
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Ion Charge and the Periodic Table
• The charge on an ion can often be determined from an elements position on the periodic table.
• Metals are always positive ions, nonmetals are negative ions.
• For many main group metals, the cation charge = the group number.
• For nonmetals, the anion charge = the group number – 8.
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Li+
Na+
K+
Rb+
Cs+
Be2+
Mg2+
Ca2+
Sr2+
Ba2+
Al3+
Ga3+
In3+
O2
S2
Se2
Te2
F
Cl
Br
I
N3
P3
As3
1A
2A 3A 7A6A5A
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Structure of the Nucleus• It is possible for the same element to have
atoms with different masses, Such elements are called isotopes.There are two isotopes of chlorine found in nature,
one that has a mass of about 35 amu and another that weighs about 37 amu.
• The observed mass is a weighted average of the weights of all the naturally occurring atoms.The atomic mass of chlorine is 35.45 amu.
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Isotopes• All isotopes of an element are chemically
identical.Undergo the exact same chemical reactions.
• All isotopes of an element have the same number of protons.
• Isotopes of an element have different masses.• Isotopes of an element have different numbers of
neutrons.• Isotopes are identified by their mass numbers.
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• Atomic Number (Z) = Number of protons.
• Mass Number (A) = Protons + Neutrons.Whole number
Percent natural abundance = Relative amount found in a sample.
Isotopes, Continued
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Isotopes of Chlorine• Cl-35 makes up about 75% of chlorine atoms in
nature, and Cl-37 makes up the remaining 25%.• Cl-35 has a mass number = 35, 17 protons and 18
neutrons ( i.e., 35 - 17).• Cl-37 has a mass number = 37, 17 protons and 20
neutrons ( i.e., 37 - 17)• The average atomic mass of Cl is 35.45 amu.
Atomic symbolA = Mass numberZ = Atomic number
AXZ
= X-A Cl or Cl-353517
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Example 4.8—How Many Protons and Neutrons Are in an Atom of ?
Z = 24 = # p+Solution:
mass number = # p+ + # n0
Solution Map:
Relationships:
therefore A = 52, Z = 24# p+ and # n0
Given:Find:
Cr5224
Cr5224
symbol atomic & massnumbers
# n0
A = Z + # n0
52 = 24 + # n0
28 = # n0
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Practice—Complete the Following Table.
Atomic Number
Mass Number
Number of
protons
Number of
electrons
Number of
neutrons Calcium-40
Carbon-13
Aluminum-27+3
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Isotopes of Neon
9.25%221210Ne-22 or
0.27%211110Ne-21 or
90.48%201010Ne-20 or
Percent natural abundance
A, mass number
Number of neutrons
Number of protonsSymbol
Ne2010
Ne2110
Ne2210
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Mass Number Is Not the Sameas Atomic Mass
• The mass number refers to the number of protons + neutrons in one isotope.Usually a whole number
• The atomic mass is an experimental number determined from all naturally occurring isotopes.
nn isotope of massisotope of abundance fractional MassAtomic
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Example 4.9─Ga-69 with Mass 68.9256 Amu and Abundance of 60.11% and Ga-71 with Mass 70.9247 Amu and Abundance of
39.89%. Calculate the Atomic Mass of Gallium.
Solution:
Solution Map:
Relationships:
Ga-69 = 60.11%, 68.9256 amuGa-71 = 39.89%, 70.9247 amu
atomic mass, amu
Given:
Find:
isotope masses,isotope fractions
avg. atomic mass
nn isotope of massisotope of abundance fractional Mass Atomic
amu 69.723041269.7 Mass Atomic
amu 9247.700.3989
amu 9256.680.6011 Mass Atomic
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Practice-An element has three naturally occurring isotopes. Their masses and percent natural abundance are given in the table below. Calculate the atomic mass of the element and identify this element.
Isotope Atomic mass Percent natural abundance
Isotope 1 20 90.4 %
Isotope 2 21 0.27 %
Isotope 3 22 9.25 %
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Recommended Study Problems Chapter 4NB: Study problems are used to check the student’s understanding
of the lecture material. Students are EXPECTED TO BE ABLE TO SOLVE ALL THE SUGGESTED STUDY PROBLEMS.
If you encounter any problems, please talk to your professor or seek help at the HACC-Gettysburg learning center.
Questions from text book Chapter 4, p 1157, 21-23, 29, 31, 35, 37, 43, 45, 47, 53, 55, 59, 61, 67, 69, 73-83, 87-89, 93, 97-103, 109, 111
ANSWERS-The answers to the odd-numbered study problems are found at the back of your textbook