compounds. chapter sixteen: compounds 16.1 chemical bonds and electrons 16.2 chemical formulas ...
TRANSCRIPT
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COMPOUNDS
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Chapter Sixteen: Compounds
16.1 Chemical Bonds and Electrons
16.2 Chemical Formulas
16.3 Molecules and Carbon Compounds
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Chapter 16.1 Learning Goals
Infer the relationship between the number of valence electrons and the behavior of atoms.
Compare and contrast ionic and covalent bonding.
Draw Lewis diagrams to represent the valence electrons of atoms.
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Investigation 16A
Key Question:Why do atoms form chemical bonds?
Chemical Bonds
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16.1 Chemical Bonds and Electrons
A chemical bond forms when atoms transfer or share electrons.
A covalent bond is formed when atoms share electrons.
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16.1 Chemical formulasA molecule’s chemical formula tells you the ratio of atoms of each element in the compound.
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16.1 Ionic bondsNot all compounds are made of
molecules.
Ionic bonds are bonds in which electrons are transferred from one atom to another.
Sodium and chlorine form an ionic bond because the positive sodium ion is attracted to the negative chloride ion.
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16.1 Why chemical bonds formIt takes energy to
separate atoms that are bonded together.
The same energy is released when chemical bonds form.
Atoms form bonds to reach a lower energy state.
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16.1 ReactivityIn chemistry, reactive means an element readily forms chemical bonds, often releasing energy.
Some elements are more reactive than others.
The closer an element is to having the same number of electrons as a noble gas, the more reactive the element is.
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16.1 Valence electronsChemical bonds are formed only between the
electrons in the highest unfilled energy level.
These electrons are called valence electrons.
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16.1 Valence electrons and the periodic table
Going from left to right across a period each new element has one more valence electron than the one before it.
How many valence electrons does nitrogen have?
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16.1 Valence electrons and the periodic table
Oxygen combines with one beryllium atom because beryllium can supply two valence electrons to give oxygen its preferred number of 8.
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16.1 Valence electrons and the periodic table
Carbon has four valence electrons.
Two oxygen atoms can bond with a single carbon atom, each oxygen sharing two of carbon’s four valence electrons.
The bonds in carbon dioxide (CO2) are double bonds because each bond involves 2 electrons.
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16.1 Lewis dot diagramsA clever way to keep
track of valence electrons is to draw Lewis dot diagrams.
A dot diagram shows the element symbol surrounded by one to eight dots representing the valence electrons. What is the dot
structure for nitrogen?
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Chapter Sixteen: Compounds
16.1 Chemical Bonds and Electrons
16.2 Chemical Formulas
16.3 Molecules and Carbon Compounds
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Chapter 16.2 Learning Goals
Use the periodic table to make predictions about whether atoms will most likely form ionic or covalent bonds.
Describe how oxidations numbers can be used to write chemical formulas of compounds.
Correctly name chemical compounds.
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Investigation 16B
Key Question:Why do atoms combine in certain ratios?
Chemical Formulas
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16.2 Chemical Formulas and Oxidation Numbers
All compounds have an electrical charge of zero (they are neutral).
An oxidation number indicates the charge on the atom (or ion) when electrons are lost, gained, or shared in chemical bonds.
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16.2 Oxidation NumbersA sodium atom always
ionizes to become Na+ (a charge of +1) when it combines with other atoms to make a compound.
Therefore, we say that sodium has an oxidation number of 1+.
What is chlorine’s oxidation number?
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16.2 Ionic bonds
On the periodic table, strong electron donors are the left side (alkali metals).
Strong electron acceptors are on the right side (halogens).
The further apart two elements are on the periodic table, the more likely they are to form an ionic compound.
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16.2 Covalent bonds
Covalent compounds form when elements have roughly equal tendency to accept electrons.
Elements that are both nonmetals and therefore close together on the periodic table tend to form covalent compounds.
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16.2 Oxidation numbers and chemical formulas
Remember, the oxidation numbers for all the atoms in a compound must add up to zero.
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16.2 Oxidation numbers
Some periodic tables list multiple oxidation numbers for most elements.
This is because more complex bonding is possible.
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Solving Problems
Iron and oxygen combine to form a compound. Iron (Fe) has an oxidation number of 3+. Oxygen (O) has an oxidation number of 2–.
Predict the chemical formula of this compound.
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1. Looking for: …formula for a binary compound
2. Given … Fe3+ and O2–
3. Relationships: Write the subscripts so that the sum of the
oxidation numbers equals zero.
4. Solution Two iron atoms = 2 × (3+) = 6+ Three oxygen atoms = 3 × (2–) = 6–
Solving Problems
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Fe
3+ O
2-
3 2x = 6
Solving Problems
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Fe
3++
= +6
Fe
3+
O2-
+
O2-
+
O2-
= -6+6-6
0
Solving Problems
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Fe
3+ O
2-
32
Solving Problems
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16.2 Polyatomic ionsCompounds can contain more than two elements.
Some of these types of compounds contain polyatomic ions.
A polyatomic ion has more than one type of atom.
The prefix poly means “many.”
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16.2 Some polyatomic ions
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Solving Problems
Al3+ combines with sulfate (SO4)2– to make aluminum sulfate.
Write the chemical formula for aluminum sulfate.
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1. Looking for: …formula for a ternary compound
2. Given … Al3+ and SO4
2–
3. Relationships: Write the subscripts so that the sum of the
oxidation numbers equals zero.
4. Solution Two aluminum ions = 2 × (3+) = 6+ Three sulfate ions = 3 × (2–) = 6–
Solving Problems
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Al3+(SO4)
2-
32
Solving Problems
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Chapter Sixteen: Compounds
16.1 Chemical Bonds and Electrons
16.2 Chemical Formulas
16.3 Molecules and Carbon Compounds
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Chapter 16.3 Learning Goals
Explain the significance of carbon in the structure of many different molecules.
Describe the importance of carbon to living organisms.
Compare and contrast the structure and function of carbohydrates, lipids, proteins, and nucleic acids.
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Investigation 16C
Key Question:What are some common molecules that
contain carbon?
Carbon and its Chemistry
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16.3 Molecules and Carbon Compounds
In addition to the elements from which it is made, the shape of a molecule is also important to its function and properties.
We use structural diagrams to show the shape and arrangement of atoms in a molecule.
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16.3 Structural diagramsTwo substances have the same formula as
aspirin, but not its pain relieving properties.
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16.3 The chemistry of carbon Carbon molecules come in three basic
forms: straight chains, branching chains, and rings.
All three forms are found in important biological molecules.
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16.3 Organic compoundsOrganic chemistry is the branch of
chemistry that specializes in carbon compounds, also known as organic molecules.
Plastic, rubber, and gasoline are important carbon compounds.
Scientists classify the organic molecules in living things into four basic groups: carbohydrates, proteins, fats, and nucleic acids.
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16.3 Carbohydrates Carbohydrates
are energy-rich compounds made from carbon, hydrogen, and oxygen.
Carbohydrates are classified as either sugars or starches.
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16.3 Carbohydrates Carbohydrates are
mainly composed of carbon, hydrogen, and oxygen in a ratio of about 1:2:1.
Glucose, C6H12O6, is a simple sugar.
Table sugar is a carbohydrate called sucrose.
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16.3 Carbohydrates Starches are
long chains of simple sugars joined together.
Cellulose is the primary molecule in plant fibers, including wood.
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16.3 Lipids Like
carbohydrates, lipids are energy-rich compounds made from carbon, hydrogen, and oxygen whose ratio is much less than 1:2:1.
Lipids include fats, oils, and waxes.
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16.3 Lipids A typical fat molecule has a two-
part structure: glycerol fatty acid chains
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16.3 Saturated or unsaturated fat?In a saturated fat,
carbon atoms are surrounded by as many hydrogen atoms as possible.
An unsaturated fat has fewer hydrogen atoms than it could have.
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16.3 Proteins Proteins are basic molecular building
blocks of cells and all parts of animals.
Proteins are among the largest organic molecules.
Why is the shape of aprotein important?
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16.3 EnzymesEnzymes are proteins.
An enzyme is a type of protein that cells use to speed up chemical reactions in living things.
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16.3 ProteinsProtein molecules are made of smaller molecules called amino acids.
Your cells combine different amino acids in various ways to make new and different proteins.
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16.3 Nucleic AcidsNucleic acids are compounds made of long, repeating chains called nucleotides.
Each nucleotide contains:
1. a sugar molecule
2. a phosphate molecule, and
3. a base
molecule.
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16.3 DNA and nucleic acidsDNA is a nucleic acid .
A DNA molecule is put together like a twisted ladder.
This model shows a short piece of the flattened DNA ladder.A DNA molecule is usually twisted and much longer.
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16.3 DNAEach side of the ladder is made of: 5-carbon sugars
called deoxyribose and phosphate
groups.
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16.3 DNAThere are four nitrogen bases in two matched pairs.
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The Spin on Scrap TiresAs the number of cars on the
road increases each year, so does the number of scrap tires. For many years, the only disposal options were to throw scrap tires into landfills or burn them, which caused air pollution. Today, scientists and engineers are coming up with innovative ways to put a new spin on discarding old tires.