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Transcript of Chapter 4 – Atomic Structure (Sec 4.2 pages 108-112) Chapter 5 – The Periodic Table (Sec 5.2...
![Page 1: Chapter 4 – Atomic Structure (Sec 4.2 pages 108-112) Chapter 5 – The Periodic Table (Sec 5.2 pages 130-138 and Sec 5.3 pages 139-145) Prentice Hall – Physical.](https://reader036.fdocuments.us/reader036/viewer/2022062407/56649d6e5503460f94a4f843/html5/thumbnails/1.jpg)
Chapter 4 – Atomic Structure (Sec 4.2 pages 108-112)
Chapter 5 – The Periodic Table (Sec 5.2 pages 130-138 and Sec 5.3 pages 139-145)
Prentice Hall – Physical Science: Concepts in Action, Copyright 2004
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Section 4.2 The Structure of the Atom – pages 108-112
• Key Concepts:– What are three subatomic
particles?– What properties can be
used to compare protons, electrons, and neutrons?
– How are atoms of one element different from atoms of other elements?
– What is the difference between two isotopes of the same element?
• Vocabulary:– Proton– Electron– Neutron– Atomic number– Mass number– Isotopes– Atoms– Nucleus
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Evidence for atoms (page 101)
• John Dalton was born in England in 1766. – He was a teacher who spent his spare time
doing science experiments.– Dalton developed a theory to explain why
elements in a compound always join in the same way.
• He proposed the theory that all matter is made up of individual particles called atoms – the smallest particles of matter that retain the properties of the element.
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Properties of Subatomic Particles
• The mass of an atom is concentrated in a dense, positively charged core located in the center of an atom.
• Atoms are made up of three subatomic particles: – Protons– Electrons– Neutrons
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Protons• Protons: a positively charged subatomic
particle that is found in the nucleus of an atom.
• Each nucleus must contain at least one proton.• Each proton is assigned a charge of 1+• Discovered by Ernest Rutherford• Mass = 1.674 x 10-24 grams• Symbol = p+
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Electrons
• Electrons: a negatively charged subatomic particle that is found in the space (electron cloud) outside of the nucleus.
• Each electron has a charge of 1-• Discovered by J.J. Thomson• Mass = 9.11 x 10-28 grams• Symbol = e-
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Neutrons
• Neutrons: a neutral subatomic particle that is found in the nucleus of an atom
• Neutral = no charge• Discovered by James Chadwick• Mass = 1.675 x 10-24 grams• Symbol = n0
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Comparing Subatomic Particles
• Protons, electrons, and neutrons can be distinguished by mass, charge, and location in an atom.– Protons and neutrons have almost equal mass
• It would take nearly 2000 electrons to equal the mass of one proton
– Electrons have a charge that is equal in size to, but opposite of, the charge of a proton.
• Neutrons have no charge
– Protons and neutrons are located inside of the nucleus
• Electrons are found in the space (electron cloud) outside of the nucleus.
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Comparing Subatomic Particles
• Everything scientists know about the nucleus and subatomic particles is based on how the particles behave.– Scientists do not have an instrument that can
show the inside of an atom.
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Atomic Number and Mass Number
• Dalton predicted that the atoms of any element are different from the atoms of all other elements.
• The subatomic particles allow scientists to describe those differences.
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Atomic Number– Atomic Number of an
element equals the number of protons in an atom.
• The atoms of any given element always have the same number of protons – thus, their atomic numbers are always the same
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Atomic Number– If you change the number
of protons, you change the atomic element, thus you are changing the element you are describing.
– Atoms of different elements have different numbers of protons
– You can use atomic numbers to refer to elements, like names and symbols, because each element has a unique atomic number
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Atomic Number
• Each positive charge is balanced by a negative charge because atoms are neutral.– So the atomic number of an
element also equals the number of electrons.
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Mass Number• Mass Number: the sum of the protons
and neutrons in the nucleus of an atom.– To calculate the number of neutrons in an
atom = mass number – atomic number
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Isotopes
• Every atom of a given element does have the same number of protons and electrons– But every atom of a
given element does NOT have the same number of neutrons.
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Isotopes• Isotopes are atoms of the same element
that have different numbers of neutrons and different mass numbers.– Isotopes of an element have the same atomic
number but different mass numbers because they have different numbers of neutrons.
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Isotopes
• For example: Oxygen-16, Oxygen-17 and Oxygen-18– Every atom of oxygen has 8 protons
• Some oxygen atoms have 8 neutrons with a mass number of 16 (8p + 8n = 16)
• Some oxygen atoms have 9 neutrons with a mass number of 17 (8p + 9n = 17)
• Some oxygen atoms have 10 neutrons with a mass number of 18 (8p + 10n = 18)
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Isotopes
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Isotopes• With most elements it is hard to notice any
differences in the physical or chemical properties of their isotopes.
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Section 5.2 The Modern Periodic Table - pages 130-138
• Key Concepts:– How is the modern periodic
table organized?– What does the atomic
mass of an element depend on?
– What categories are used to classify elements on the periodic table?
– How do properties vary across a period in the periodic table?
• Vocabulary:– Period– Group– Periodic law– Atomic mass unit (amu)– Metals– Transition metals– Nonmetals– Metalloids
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The Periodic Law
• In the modern periodic table, elements are arranged by increasing atomic number (number of protons)
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The Periodic Law• Period: each row on the periodic table – total of 7
periods– Period 1 has 2 elements– Period 2 and 3 have 8 elements– Period 4 and 5 have 18 elements– Period 6 has 32 elements– Period 7 can have up to 32 elements
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The Periodic Law
• Group: Each column on the periodic table – total of 18 groups– The elements within a group have similar properties– Properties of elements repeat in a predictable way
when atomic numbers are used to arrange elements into groups.
– An element’s electron configuration determines its chemical properties – each element in a group has similar electron configurations.
– This pattern of repeating properties is the periodic law.
– Periodic Table (not up-to-date) page 132-133
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Atomic Mass• There are 4 pieces of
information for each element typically represented on the periodic table– Name of the element– Element symbol– Atomic Number – Atomic Mass: a value
that depends on the distribution of an element’s isotopes in nature and the masses of those isotopes
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Atomic Mass
• Atomic Mass Unit (amu): defined as one twelfth the mass of the carbon-12 atom.– The mass of an atom
in grams is extremely small and difficult to measure
– Scientists chose one isotope to serve as a standard, C-12.
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Isotopes of Chlorine– In nature, most elements exist as a mixture of two or
more isotopes.– Chlorine has the symbol Cl, atomic number of 17, and
an atomic mass of 35.453 – where does that atomic mass come from?
• There are two natural isotopes of chlorine: Chlorine-35 and Chlorine-37
• Chlorine-35 has 17 protons and 18 neutrons• Chlorine-37 has 17 protons and 20 neutrons – greater mass
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Weighted Averages
– The value of the atomic mass of chlorine (35.453 amu) is a weighted average.
– The isotope that occurs in nature about 75% of the time (Chlorine-35) contribures three times as much as the average as the isotope that occurs in nature about 25% of the time (chlorine-37)
– Example: How to calculate weighted averages
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Classes of Elements• The periodic table of elements presents
three different ways to classify elements.– Solids, liquids, or gases based on their states
at room temperature• Typically represented by different colors on the
periodic table
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Classes of Elements• Naturally occurring vs synthetic
– All but two elements with atomic numbers 1-92 occur on Earth
– Elements with atomic numbers of 93 and higher do not occur naturally – symbols are typically represented by outline letters
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Classes of Elements• Metals, nonmetals, or metalloids
– Metals are located on the left– Nonmetals are located on the right– Metalloids are in between
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Metals
– Metals make up a majority of the elements on the periodic table
– Metals are elements that are good conductors of electric current and heat
• Except for mercury, metals are solids at room temperature
• Most are malleable (can be hammered into a thin sheet)
• Many are ductile (can be drawn into thin wires)
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Metals
• Some metals are extremely reactive and some do not react easily.– Gold vs Magnesium
reactivity when exposed to oxygen in the air
• Gold remains shiny – no reaction
• Magnesium quickly dulls – reaction
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Metals• The metals in groups 3-12 are called transition
metals: elements that form a bridge between the elements in the left and right sides of the table.
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Transition Metals• One property is their ability to form
compounds with distinctive colors– Iron or Chromium is added for green colored
glass– Copper or gold for red colored glass– Cobalt is added for blue glass
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Transition Metals
• Some transition elements have more properties in common than elements in other groups.– Elements in the lanthanide and actinide series– These elements are so similar that chemists
in the 1800s had difficulty separating them when they were found mixed together in nature.
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Nonmetals
• Nonmetals have properties opposite to those of metals– Poor conductors of heat and electric current– Low boiling points – many nonmetals are
gases at room temperature– All the gases on the periodic table are
nonmetals• Nonmetals that are solids tend to be brittle (can
shatter or crumble easily)
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Nonmetals
• Nonmetals vary as much in their chemical properties as they do in their physical properties.– Some nonmetals are
extremely reactive, some hardly react at all, and some fall somewhere in between.
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#5C – Modern Periodic TableMetalloids are elements with properties that fall
between those of metals and nonmetals1) A metalloid’s ability to conduct electric current
varies with temperaturea) Pure silicon (Si) and germanium (Ge) are good
insulators at low temperatures and good conductors at high temperatures
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Variation Across a Period• The properties within a period
change in a similar way from left to right across a period, except for Period 1.
• Across a period from left to right, the elements become less metallic and more nonmetallic in their properties.– Most reactive metals are on the left
side of the table (group 1)– Most reactive nonmetals are on the
right side (group 17)
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Variation Across a Period• Period 3 provides an excellent example of this
trend– There are three metals, a metalloid, and four
nonmetals.• Na: reacts quickly and violently with water• Mg: does not react with water unless the water is hot• Al: does not react with water, but it does react with oxygen• Si: least reactive element (except for argon)• P and S: do not react with water, but they do react with oxygen• Cl: highly reactive nonmetal• Ar: hardly reacts at all
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Section 5.3 Representative Groups – pages 139-145
• Key Concepts:– Why do the elements
in a group have similar properties?
– What are some properties of the A groups in the periodic table?
• Vocabulary:– Valence electron– Alkali metal– Alkaline earth metals– Halogens– Noble gases
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Valence Electrons• Valence Electron: an
electron that is in the highest occupied energy level of an atom.– These electrons play a
key role in chemical reaction and the properties vary across a period because the number of valence electrons increases from left to right.
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Valence Electrons
• Periodic Table group numbering system – notice the A groups are numbered 1-8.– This group number
corresponds to the number of valence electrons that each atom in that group contains.
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Valence Electrons
• Elements in a group have similar properties because they have the same number of valence electrons.– The properties are not identical because the
valence electrons are in different energy levels.
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The Alkali Metals• Elements in group 1A
– These elements have a single valence electron and are extremely reactive.• Never found in nature uncombined
(example table salt)– Not all the elements in a group are
equally reactive• Na is more reactive than lithium,
potassium is more reactive than lithium, etc
• The reactivity increases from the top of group 1A to the bottom
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The Alkaline Earth Metals
• Elements in group 2A– These elements all have two valence
electrons– Harder than the metals in group 1A– Differences in reactivity among the alkaline
earth metals are shown by the ways they react with water.
• Ca, Sr, and Ba all react easily with cold water• Mg will react with hot water• Be no reaction with water
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#6C – Representative GroupsD. Group 3A – The Boron Family - contains the
metalloid boron, the well-known metal aluminum and three less familiar metals – gallium, indium, and thallium1. All of these elements contain 3 valence
electrons
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#6C – Representative Groups
2. Aluminum is the most abundant metal in the earth’s crust.a. It is often found combined with oxygen in a
mineral called bauxite.
b. It is less reactive than sodium and magnesium
c. It is strong, lightweight, malleable, and a good conductor of electric current.
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#6C – Representative GroupsE. Group 4A – The Carbon family – contains a
nonmetal (C), two metalloids (Si and Ge), and two metals (Sn and Pb)1. Each of these elements has four valence
electrons
2. Except for water, most of the compounds in your body contain carbon
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Carbon
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#6C – Representative Groups
3. Silicon is the second most abundant element in the Earth’s crust – It is found as silicon dioxide, in quartz rocks, and glass.
4. Silicon carbide, a compound of silicon and carbon, is extremely hard and is used in saw blades.
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The Nitrogen Family
• Elements in group 5A
• Each of these elements has five valence electrons
• Contains two nonmetals (N and P), two metalloids (As and Sb) and one metal (Bi)
• Elements in this group have a wide range of physical properties
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The Oxygen Family
• Elements in group 6A• Each of these elements has six valence
electrons• Contains three nonmetals (O, S, and Se) and
two metalloids (Te and Po)• Oxygen is the most abundant element in the
earth’s crust– Complex forms of life also need oxygen to survive
(helps release energy stored in food)– Ozone is another form of the element oxygen
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The Halogens
• Elements in group 7A• Each of these elements has seven valence
electrons• Despite their physical differences, the halogens
have very similar chemical properties– F and Cl are gases, Br is a liquid that evaporates
quickly, and I is a solid that sublimes– Highly reactive nonmetals (F is most reactive)– React easily with most metals
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The Noble Gases
• Elements in group 8A• Each of these elements has eight valence
electrons (except for He, it only has 2)• The noble gases are colorless and odorless and
extremely unreactive.• An element that does not react easily with other
elements can be very useful– Allows for other elements to not react– Storing documents– Prevents the reaction with oxygen
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#6C – Representative Groups4. When electric current passes
through noble gases, they emit different colors
a. Helium emits pink
b. Neon emits orange-red
c. Argon emits lavender
d. Krypton emits white
e. Xenon emits blue
f. Radon emits green
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