1. Chapter 8 Covalent Bonding 8.1 Molecular Compounds
8.2 The Nature of Covalent Bonding
8.3 Bonding Theories
8.4 Polar Bonds and Molecules
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2. How might the models differ from one another?
Bellringer
If everyone in the room had the same set of toy logs and connector pieces, will everyone in the room create the same model?
How might the models differ from one another?
Do you think two atoms can be joined together in more than one way?
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3. CHEMISTRY & YOU
How are atoms joined together to make compounds with different structures?
Although the types of pieces are limited, you can make many different toy models depending on how many pieces you use and how they are arranged.
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4. Molecules and Molecular Compounds
What information does a molecular formula provide?
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5. Molecules and Molecular Compounds
In nature, only the noble gas elements, such as helium and neon, exist as uncombined atoms.
They are monatomic; that is, they consist of single atoms.
Helium, which is less dense
than air, is often used to
inflate balloons.
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6. Molecules and Molecular Compounds
But not all elements are monatomic.
O2 represents two oxygen atoms that are bonded together.
Scuba divers breath
compressed air, a mixture
that contains oxygen gas.
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7. Molecules and Molecular Compounds
Ionic compounds are generally crystalline solids with high melting points. Other compounds, however, have very different properties.
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8. Molecules and Molecular Compounds
Ionic compounds are generally crystalline solids with high melting points. Other compounds, however, have very different properties.
Water (H2O) is a liquid at room temperature.
Carbon dioxide (CO2) and nitrous oxide (N2O) are both gases at room temperature.
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9. Molecules and Molecular Compounds
The attractions that hold together the atoms in O2, H2O, CO2, and N2O cannot be explained by ionic bonding.
These bonds do not involve the transfer of electrons.
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10. Molecules and Molecular Compounds
Sharing Electrons
Recall that ionic bonds form when the combining atoms give up or accept electrons.
Another way that atoms can combine is by sharing electrons.
Atoms that are held together by sharing electrons are joined by a covalent bond.
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11. Molecules and Molecular Compounds
Sharing Electrons
A molecule is a neutral group of atoms joined together by covalent bonds.
Oxygen gas consists of oxygen molecules; each oxygen molecule consists of two covalently bonded oxygen atoms.
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12. Molecules and Molecular Compounds
Sharing Electrons
An oxygen molecule is an example of a diatomic molecule—a molecule that contains two atoms.
Other elements found in nature in the form of diatomic molecules include hydrogen, nitrogen, and the halogens.
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13. Molecules and Molecular Compounds
Sharing Electrons
Molecules can also be made of atoms of different elements.
A compound composed of molecules is called a molecular compound.
Water is an example of a molecular compound.
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14. Molecules and Molecular Compounds
Representing Molecules
A molecular formula is the chemical formula of a molecular compound.
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15. Molecules and Molecular Compounds
Representing Molecules
A molecular formula shows how many atoms of each element a substance contains.
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16. Molecules and Molecular Compounds
Representing Molecules
The molecular formula of water is H2O.
Notice that the subscript written after an element’s symbol indicates the number of atoms of each element in the molecule.
If there is only one atom, the subscript 1 is omitted.
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17. Molecules and Molecular Compounds
Representing Molecules
Butane is also a molecular compound.
Butane is commonly used in lighters and household torches.
The molecular formula for butane is C4H10.
According to this formula, one molecule of butane contains four carbon atoms and ten hydrogen atoms.
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18. Molecules and Molecular Compounds
Representing Molecules
A molecular formula reflects the actual number of atoms in each molecule.
The subscripts are not necessarily the lowest whole-number ratios.
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19. Molecules and Molecular Compounds
Representing Molecules
Note that molecular formulas also describe molecules consisting of atoms of one element.
For example, an oxygen molecule consists of two oxygen atoms bonded together; its molecular formula is O2.
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20. Molecules and Molecular Compounds
Representing Molecules
A molecular formula does not tell you about a molecule’s structure.
In other words, it does not show either the arrangement of the various atoms in space or which atoms are covalently bonded to one another.
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21. Molecules and Molecular Compounds
Representing Molecules
A variety of diagrams and molecular models can be used to show the arrangement of atoms in a molecule.
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22. Molecules and Molecular Compounds
Representing Molecules
The arrangement of atoms within a molecule is called its molecular structure.
The molecular structure of carbon dioxide shows how the three atoms are arranged in a row.
It also shows how the carbon atom in each molecule is in the middle between the two oxygen atoms.
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23. Molecules and Molecular Compounds
Representing Molecules
The arrangement of atoms within a molecule is called its molecular structure.
The molecular structure of water shows how the oxygen atom is in the middle between the hydrogen atoms.
The atoms in water are not arranged in a row. Instead the hydrogen atoms are mainly on one side of the water molecule.
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24. Molecules and Molecular Compounds
Representing Molecules
The arrangement of atoms within a molecule is called its molecular structure.
The molecular structure of ethanol (C2H6O) is more complicated.
Each carbon is bonded to four atoms, each hydrogen is bonded to one atom, and the one oxygen is bonded to two atoms.
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25. CHEMISTRY & YOU
Similar to how you can make different types of toy models, there are thousands of different types of molecular structures. How are atoms joined together to make compounds with different structures?
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26. CHEMISTRY & YOU
Similar to how you can make different types of toy models, there are thousands of different types of molecular structures. How are atoms joined together to make compounds with different structures?
Atoms are arranged in different ways in space to form molecules with different molecular structures.
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27. Acetylsalicylic acid, also known as aspirin, has a molecular formula of C9H8O4. What elements make up acetylsalicylic acid? How many atoms of each element are found in one molecule of acetylsalicylic acid?
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28. Acetylsalicylic acid, also known as aspirin, has a molecular formula of C9H8O4. What elements make up acetylsalicylic acid? How many atoms of each element are found in one molecule of acetylsalicylic acid?
One molecule of acetylsalicylic acid is made of 9 carbon atoms, 8 hydrogen atoms, and 4 oxygen atoms.
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29. Comparing Molecular and Ionic Compounds
What representative units define molecular compounds and ionic compounds?
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30. Comparing Molecular and Ionic Compounds
The representative unit of a molecular compound is a molecule. For an ionic compound, the smallest representative unit is a formula unit.
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31. Number a sheet of paper from 1 to 6
Assessment
Number a sheet of paper from 1 to 6
Indicate on your paper if the following statements are true or false. (Do not copy statements).
All molecular compounds are composed of atoms of two or more different elements.
All compounds contain molecules.
No elements exist as molecules.
Most molecular compounds are composed of two or more nonmetallic elements.
Atoms in molecular compounds share electrons.
Ionic compounds tend to have lower melting and boing points that molecular compounds.
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32. Comparing Molecular and Ionic Compounds
Recall that a formula unit is the lowest whole-number ratio of ions in an ionic compound.
It is important not to confuse formula units with molecules.
A molecule is made up of two or more atoms that act as a unit.
No such discrete units exist in an ionic compound, which consists of a continuous array of ions.
There is no such thing as a molecule of sodium chloride or magnesium chloride.
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33. Comparing Molecular and Ionic Compounds
Molecular compounds tend to have relatively lower melting and boiling points than ionic compounds.
Many molecular compounds are gases or liquids at room temperature.
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34. Comparing Molecular and Ionic Compounds
Molecular compounds tend to have relatively lower melting and boiling points than ionic compounds.
Many molecular compounds are gases or liquids at room temperature.
In contrast to ionic compounds, which are formed from a metal combined with a nonmetal, most molecular compounds are composed of atoms of two or more nonmetals.
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35. Comparing Molecular and Ionic Compounds
Water, which is a molecular compound, and sodium chloride, which is an ionic compound, are compared here.
Array of
sodium ions and
chloride ions
Collection of
water molecules
Formula unit of
sodium chloride
Molecule of
water
Chemical formula
H2O
NaCl
Chemical formula
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36. How is the formula unit of an ionic compound different from a molecule?
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37. PLEASE COMPLETE 8.1 WORKSHEET DUE AT 11:50AM TODAY.
BELLRINGER
ON YOUR OWN
PLEASE COMPLETE 8.1 WORKSHEET DUE AT 11:50AM TODAY.
You may use your textbook and notes.
Please work SILENTLY and INDEPENDENTLY. Let me know if you need any help.
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38. Copyright © Pearson Education, Inc. , or its affiliates
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39. How is the formula unit of an ionic compound different from a molecule?
A molecule is made up of two or more atoms that act as a unit. No such discrete units exist in an ionic compound, which exists as an array of ions.
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40. Key Concepts
A molecular formula shows how many atoms of each element a substance contains.
The representative unit of a molecular compound is a molecule. For an ionic compound, the smallest representative unit is a formula unit.
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41. covalent bond: a bond formed by the sharing of electrons between atoms
Glossary Terms
covalent bond: a bond formed by the sharing of electrons between atoms
molecule: a neutral group of atoms joined by covalent bonds
diatomic molecule: a molecule consisting of two atoms
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42. molecular compound: a compound that is composed of molecules
Glossary Terms
molecular compound: a compound that is composed of molecules
molecular formula: a chemical formula of a molecular compound that shows the kinds and numbers of atoms present in a molecule of a compound
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43. Bonding and Interactions
BIG IDEA
Bonding and Interactions
In molecular compounds, bonding occurs when atoms share electrons.
In ionic compounds, bonding occurs when electrons are transferred between atoms.
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44. END OF 8.1
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