1. Presentation title slide

2. UNIT 2: Chemical Reactions
Chapter 3: Chemical Names, Formulas, and Equations
Chapter 4: Classifying Compounds and Chemical Reactions

3. Chapter 3: Chemical Names, Formulas, and Equations
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Chapter 3: Chemical Names, Formulas, and Equations
Chemical reactions are used in a variety of sometimes surprising places. This photographer is using a breathing apparatus that uses a chemical reaction to recycle the air.
Why is the photographer using this type of breathing apparatus?
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4. 3.1 Ionic and Molecular Compounds
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
3.1 Ionic and Molecular Compounds
Many of the chemical compounds in products that people use at home, school, and work have properties that make them both beneficial and potentially dangerous.
Chlorine compounds are both useful and hazardous.
How is chlorine useful in swimming pools?
Chlorine kills harmful bacteria and other microbes.
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5. Chemical Compounds UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
Chemical Compounds
Identify the molecular compounds and the ionic compounds in the objects below.
Ionic compounds: table salt, egg shells, and baking soda
Molecular compounds: wood, butter, sugar, and melamine plastic
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6. Chemical Compounds UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
Chemical Compounds
Compounds are made of elements that are chemically combined in specific proportions.
Two classifications that chemists use to categorize compounds are molecular compounds and ionic compounds.
Ionic compounds: table salt, egg shells, and baking soda
Molecular compounds: wood, butter, sugar, and melamine plastic
Water is composed of molecules. Water molecules consist of two hydrogen atoms bonded to one oxygen atom.
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7. Molecular Compounds UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
Molecular Compounds
A molecule is a particle formed by two or more atoms joined by covalent bonds.
A molecular compound is a compound formed of atoms of two or more elements that share electrons.
The particles in a molecule are held together by covalent bonds.
What properties do molecular compounds usually have?
What role do electrons have in covalent bonds?
Covalently bonded molecules have low melting points, low boiling points, and are poor conductors of electricity and heat. Molecular compounds are made up of non-metals.
Electrons are shared between atoms in covalent bonds.
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8. UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
Ionic Compounds
An ion is an atom or group of atoms with a positive or negative charge.
An ionic compound is a compound composed of oppositely charged ions held together with strong ionic bonds.
What properties do ionic compounds usually have?
What role do electrons have in ionic bonds?
Ionic compounds usually have very high melting points and boiling points. They are poor conductors of electricity in the solid state, but they do conduct electricity when dissolved in water or when they are melted. Ionic compounds are made up of metals and non-metals.
Ionic bonds form when one or more electrons are transferred from one atom to another atom.
A crystal of sodium chloride is structured so that six chloride ions surround every sodium ion, and six sodium ions surround every chloride ion.
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9. UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.1
Section 3.1 Review
Some chemical compounds in household products have properties that are both useful and dangerous.
Compounds can be classified as ionic or molecular. Ionic compounds and molecular compounds have characteristic properties that are a result of their structure at the atomic level.
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10. 3.2 Names and Formulas of Ionic and Molecular Compounds
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
3.2 Names and Formulas of Ionic and Molecular Compounds
Names of Binary Ionic Compounds
A binary ionic compound is a compound composed of ions of one metal element and ions of one non-metal element joined by ionic bonds.
The name of a binary ionic compound comes from the names of its elements.
How is a binary ionic compound named?
The positive ion is always a metal in a binary ionic compound, and it is always named first. Its name is the same as the element.
The second part of the name is the negative ion. The name of the negative ion is changed so that it always ends in “-ide”.
magnesium sulfide
aluminum fluoride
sodium chloride
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11. Interpreting the Chemical Formula of an Ionic Compound
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Interpreting the Chemical Formula of an Ionic Compound
The chemical formula of a binary ionic compound contains element symbols to identify each ion.
The positively charged ion is named first, and the negatively charged ion is named second.
Subscripts are used to indicate the ratio of each type of ion in the compound.
What does each symbol in the formula mean?
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12. Writing Formulas of Ionic Compounds
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Writing Formulas of Ionic Compounds
Although an ionic compound is made up of ions, the compound itself is electrically neutral.
The periodic table can be used to determine the charges of some ions.
What charges do ions in Group 1, Group 2, and Groups 3−7 have?
Group 1 ions have a +1 charge. Group 2 ions have a +2 charge. Group 3-7 elements can have more than one ion and, therefore, more than one charge value.
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13. Multivalent Metals UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Multivalent Metals
Some metals are multivalent metals, which means that they can have more than one charge.
When naming a compound that contains a multivalent ion, you must include a Roman numeral to show which charge the ion has.
How can you use the periodic table to determine if an ion is a multivalent metal?
If the element is transition metal located in groups 3 through 12, it is most likely a multivalent metal.
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14. Ionic Compounds Containing Polyatomic Ions
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Ionic Compounds Containing Polyatomic Ions
Compounds containing polyatomic ions are not binary compounds because they contain at least three elements.
Compounds containing polyatomic ions are named by writing the name of the positive ion followed by the name of the negative ion.
CaCO3
O22-
NH4+
CO3-
Calcium carbonate is an ionic compound, but it is not a binary ionic compound.
NO3-
Polyatomic ions are made up of more than one atom. The polyatomic ions above are ammonium, nitrate, peroxide, and carbonate.
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15. Ionic Compounds Containing Polyatomic Ions
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Ionic Compounds Containing Polyatomic Ions
Which polyatomic ion is found in seashells?
The carbonate ion is found in seashells.
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16. Names and Formulas of Binary Molecular Compounds
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Names and Formulas of Binary Molecular Compounds
A binary molecular compound is a compound composed of atoms of two different elements, usually two non-metals, that are joined together with covalent bonds.
What is the name of a binary molecular compound that contains one sulfur atom and six fluorine atoms?
Sulfur hexafluoride. The prefix indicates the number of atoms.
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17. IUPAC and Systematic Names
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
IUPAC and Systematic Names
The international system for naming chemicals is maintained by the International Union of Pure and Applied Chemistry (IUPAC).
IUPAC has developed a systematic method for naming chemicals according to their composition.
Why is an international system for naming chemicals important?
An international system for naming chemicals ensures that scientists from all over the world can identify a chemical by its universal name and thus exchange information about their research and findings.
These calcium sulfate crystals are found in Mexico. Thanks to IUPAC, scientists around the world can share information about them.
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18. Key Naming Rules: A Summary
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Key Naming Rules: A Summary
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19. Exceptions to the Rules
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Exceptions to the Rules
Compounds that contain hydrogen are exceptions to the general naming rules. Hydrogen is a non-metal, and hydrogen chloride (HCl) is molecular compound. Binary hydrogen compounds are named as though they are ionic compounds.
Compounds that contain hydrogen and carbon are also named differently.
If hydrogen chloride was named according to the naming rules for molecular compounds, it would be called hydrogen monochloride.
HCl
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20. UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.2
Section 3.2 Review
Chemical compounds are named according to whether they are ionic or molecular.
The formula of an ionic compound represents the ratio of the positive and negative ions in the electrically neutral compound.
The formula of a molecular compound represents the number of atoms of each element in a molecule of the compound.
Chemical names and formulas are standardized by bodies such as the International Union of Pure and Applied Chemistry (IUPAC).
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21. 3.3 Chemical Equations and the Law of Conservation of Mass
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
3.3 Chemical Equations and the Law of Conservation of Mass
A chemical reaction occurs when one or more substances (elements or compounds) change to form one or more different substances (elements or compounds).
The substances that undergo a chemical reaction are called the reactants.
The substances formed in a chemical reaction are called products.
What are some examples of chemical reactions that take place around you?
Sample answers: cake rising, fireworks exploding, green plants undergoing photosynthesis, humans undergoing respiration
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22. UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Word Equations
A chemical reaction can be expressed in a word equation.
The reactants are on the left side of the arrow, and the products are on the right side of the arrow.
When do you use a plus sign in a word equation?
A plus sign is used when more than one reactant or more than one product is present.
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23. The Conservation of Mass in Chemical Reactions
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
The Conservation of Mass in Chemical Reactions
Antoine Lavoisier experimentally demonstrated the Law of Conservation of Mass, which means that, in a chemical reaction, the total mass of the products is always the same as the total mass of the reactants.
In his atomic theory, John Dalton stated that each atom present in the reactants is also present in the products. Since atoms are neither created nor destroyed, the mass does not change.
How did Antoine and Marie-Anne Lavoisier work together as a team?
Marie-Anne translated scientific papers from English into French for her husband and she drew diagrams of the setups that he used in his experiments. Antoine conducted the experiments.
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24. Chemical Equations and the Law of Conservation of Mass
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Chemical Equations and the Law of Conservation of Mass
A chemical equation is a representation of a chemical reaction that uses chemical formulas and symbols.
A skeleton equation is incomplete. A balanced chemical equation is complete because it takes the law of conservation of mass into consideration.
A coefficient is a number placed in front of a chemical formula in a balanced equation to show how many atoms, molecules, or ions are involved in a reaction. Coefficients are used to balance a chemical equation.
These abbreviations represent the state of a substance—solid, gas, liquid, or aqueous.
What do the abbreviations (s), (g), (ℓ), and (aq) represent?
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25. Balancing Chemical Equations
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Balancing Chemical Equations
When balancing chemical equations, write the skeleton equation and then use coefficients to balance the numbers of each kind of atom on each side of the yield arrow.
The skeleton chemical equation above becomes the balanced chemical equation below.
You NEVER change the subscripts to balance a chemical equation.
When do you change the subscripts to balance a chemical equation?
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26. Tips for Writing and Balancing Chemical Equations
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Tips for Writing and Balancing Chemical Equations
A systematic approach should be used to write and balance chemical equations.
Can you suggest five tips for writing and balancing chemical equations?
The summary from page 133 of the student textbook is presented on the next slide.
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27. Tips for Writing and Balancing Chemical Equations
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Tips for Writing and Balancing Chemical Equations
Balance equations by adjusting coefficients, never by changing chemical formulas.
Balance metals first.
Add coefficients to any elements last.
Balance hydrogen and oxygen last. They often appear in more than one reactant or more than one product, so it is easier to balance them after the other elements are balanced.
If a polyatomic ion appears in both a reactant and a product, treat it as a single unit.
From page 133:
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Continued…

28. Tips for Writing and Balancing Chemical Equations
UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Tips for Writing and Balancing Chemical Equations
Once you think the chemical equation is balanced, do a final check by counting the atoms of each element one more time.
If you go back and forth between two substances, using higher and higher coefficients, double-check each chemical formula. An error in a chemical formula might be preventing you from balancing the chemical equation.
The following elements exist as diatomic molecules: hydrogen, H2(g); nitrogen, N2(g); oxygen, O2(g); fluorine, F2(g); chlorine, Cl2(g); bromine, Br2 (ℓ); and iodine, I2(s). Always write them as shown here in a chemical equation.
From page 133:
A diatomic molecule contains two atoms of the same element.
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29. UNIT 2
Chapter 3: Chemical Names, Formulas, and Equations
Section 3.3
Section 3.3 Review
In a chemical reaction, a reactant or reactants undergo a chemical change, forming a different substance or substances called products. Reactants and products may be elements or chemical compounds.
According to the law of conservation of mass, the overall mass of the reactants is always equal to the overall mass of the products in a chemical reaction.
Chemists use descriptions, word equations, and balanced chemical equations to represent chemical reactions.
In a balanced chemical equation, there is always the same number of atoms of each element on each side of the equation, in accordance with the law of conservation of mass.
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