How are the following words How are the following words related? related? ouro ouro zlato zlato de oro de oro aurum aurum • All are the word for the element All are the word for the element “gold” in Portuguese, Croatian, “gold” in Portuguese, Croatian, Spanish, and Latin Spanish, and Latin
69
Embed
How are the following words related? ourozlato de oro aurum All are the word for the element “gold” in Portuguese, Croatian, Spanish, and Latin All are.
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
How are the following words How are the following words related?related?
ouroouro
zlatozlato
de orode oro
aurumaurum
• All are the word for the element “gold” All are the word for the element “gold” in Portuguese, Croatian, Spanish, and in Portuguese, Croatian, Spanish, and LatinLatin
CHAPTER 9p. 252
CHEMICAL NAMES AND FORMULAS
SECTION 9.1 p. 253SECTION 9.1 p. 253NAMING IONSNAMING IONS
•Atoms - neutral
•same # + and e-•Ions are atoms, or groups of atoms, with a charge (positive or negative)
•different # + and e-•gain or lose e-’s•Monotomic IonsMonotomic Ions – 1 atom w/ + or - charge
A Cation is…A Cation is… + ion formed by losing e-’s Metals lose e-’s Charge written as superscript
K1+ Has lost one electron (no name change for positive ions)
Ca2+ Has lost two electrons
An Anion is…An Anion is…• - ion•gains e-’s•Nonmetals can gain e-’s
Ion High School
Predicting Ionic ChargesGroupGroup 1A1A:: Lose 1 e- to form 1+ ionsLose 1 e- to form 1+ ions
HH1+1+ LiLi1+1+ NaNa1+1+ KK1+1+ RbRb1+1+
Predicting Ionic ChargesGroup 2AGroup 2A:: Loses 2 e-’s to form 2+ ionsLoses 2 e-’s to form 2+ ions
noble gases noble gases do notdo not form ions!form ions!
Predicting Ionic ChargesGroup B elementsGroup B elements:: Many transition elements Many transition elements
have have more than onemore than one possible oxidation state. possible oxidation state.Iron (II) = Fe2+
Iron (III) = Fe3+Roman numerals show charges
Naming cations
1) Stock system – Roman numerals in () indicates numerical value
2) Classical method – root word w/ suffixes (-ous, -ic)• Doesn’t give true value
Naming cations•Stock system.•Cation - if the charge is always the same (like in the Group A metals) just write the name of the metal.
•Transition metals can have more than one charge.• Indicate their charge as Roman numeral in () after name of cation (Table 9.2, p.255)
Predicting Ionic Charges Some of the Some of the post-transitionpost-transition elements also elements also have have more than onemore than one possible oxidation state. possible oxidation state.Tin (II) = Sn2+ Lead (II) = Pb2+
Tin (IV) = Sn4+ Lead (IV) = Pb 4+
Predicting Ionic ChargesGroup B elementsGroup B elements:: Some transition elements Some transition elements
have have only oneonly one possible oxidation state, such possible oxidation state, such as these three:as these three:
Zinc = Zn2+Silver = Ag1+ Cadmium = Cd2+
Exceptions:•Some transition metals have only one ionic charge:
•Do not use Roman numerals for these:
•Silver always 1+ (Ag1+)•Cadmium and Zinc always 2+ (Cd2+ and Zn2+)
Practice by naming these:
•Na1+ •Ca2+ •Al3+ •Fe3+ •Pb2+ •Li1+
Write symbols for these:
•Potassium ion•Magnesium ion •Copper (II) ion•Chromium (VI) ion•Barium ion•Mercury (II) ion
Naming Anions
•Change monatomic element ending to – ide
•F1- a Fluorine atom becomes Fluoride ion.
Practice by naming these:
•Cl1- •N3- •Br1- •O2-
Write symbols for these:
•Sulfide ion•Iodide ion•Phosphide ion
Polyatomic ions • Groups of atoms that stay together and have overall
charge• Usually end in –ate or -ite
• Acetate: C2H3O21-
• Nitrate: NO31-
• Nitrite: NO21-
• Permanganate: MnO41-
• Hydroxide: OH1- and Cyanide: CN1-?
• Sulfate: SO42-
• Sulfite: SO32-
• Carbonate: CO32-
• Chromate: CrO42-
• Dichromate: Cr2O72-
• Phosphate: PO43-
• Phosphite: PO33-
• Ammonium: NH41+
Know Table 9.3 on page 257
If polyatomic ion begins with H, then combine the word hydrogen with the other polyatomic ion present:
H+ + CO32- → HCO3
-
hydrogen + carbonate → hydrogen carbonate ion
(One of the few positive polyatomic ions)
Section 9.2 – Marble madness
• Pair up with someone• everyone gets a cup• The person in each pair whose birthday is closest to today gets to add 4 marbles in their cups
• The other person keeps an empty cup• Listen for further instructions
SECTION 9.2 P. 260
NAMING & WRITING FORMULAS FOR IONIC
COMPOUNDS
Example: Barium nitrate (note the 2 word name)
1. Write the formulas for cation and anion, including CHARGES!
BaBa2+2+ NONO33--2. Do charges balance?
3. Balance charges , if necessary, using subscripts. Use () if more than one polyatomic ion. Use criss-cross method to balance subscripts.
Not balanced!
( )( ) 22Now balanced.
= Ba(NO3)2
Writing Ionic Compound Formulas
Example: Ammonium sulfate (note the 2 word name)
NHNH44++ SOSO44
2-2-
2. Do charges balance? Not balanced!
( )( )22
Now balanced.
= (NH4)2SO43. Balance charges , if necessary, using subscripts. Use () if more than one polyatomic ion. Use criss-cross method to balance subscripts.
1. Write the formulas for cation and anion, including CHARGES!
Writing Ionic Compound Formulas
Example: Iron (III) chloride (note the 2 word name)
1. Write the formulas for cation and anion, including CHARGES!
FeFe3+3+ClCl--
2. Do charges balance?
3. Balance charges , if necessary, using subscripts. Use () if more than one polyatomic ion. Use criss-cross method to balance subscripts.
Not balanced!
33Now balanced.
= FeCl3
Writing Ionic Compound Formulas
Example: Aluminum sulfide (note the 2 word name)
1. Write the formulas for cation and anion, including CHARGES!
AlAl3+3+ SS2-2-
2. Do charges balance?
3. Balance charges , if necessary, using subscripts. Use () if more than one polyatomic ion. Use criss-cross method to balance subscripts.
Not balanced!
22 33Now balanced.
= Al2S3
Writing Ionic Compound Formulas
Example: Zinc hydroxide (note the 2 word name)
1. Write the formulas for cation and anion, including CHARGES!
ZnZn2+2+ OHOH--
2. Do charges balance?
3. Balance charges , if necessary, using subscripts. Use () if more than one polyatomic ion. Use criss-cross method to balance subscripts.
Not balanced!
( )( )22
Now balanced.
= Zn(OH)2
Naming Ionic CompoundsNaming Ionic Compounds•1. Name cation first, then anion
•2. Monatomic cation = name of element
Ca2+ = calcium ion
•3. Monatomic anion = root + -ide
Cl = chloride
CaCl2 = calcium chloride
Naming Ionic CompoundsNaming Ionic Compounds
•some metals form more than one charge (usually transition metals)
•use Roman numeral in name:
PbCl2 – use anion to find charge on
cation (chloride always 1-)
Pb2+ is lead (II) cation
PbCl2 = lead (II) chloride
(Metals with multiple oxidation states)(Metals with multiple oxidation states)
Things to look for:
1) If cation has ( ), the number in parenthesis is its charge.
2) If anion ends in –ide, likely monoatomic
3) If anion ends in -ate or –ite, it’s polyatomic
Practice by writing formula or name
•Iron (II) Phosphate•Stannous Fluoride•Potassium Sulfide•Ammonium Chromate
•MgSO4
•FeCl3
Section 9.3 p. 268Naming and Writing Formulas for Molecular Compounds
Molecular cmpds…•made of nonmetals•smallest piece… molecule•not bound by opposite charge attraction•can’t use charges to figure # of each atom (no charges present)
Molecular v.s. Ionic Compounds• Ionic: use charges to determine # of each
•One exception…..don’t write mono when only one of first element
Prefix name Prefix name -ide
Using Prefixes to name covalent compounds• To write the name, write two words:
•One exception is we don’t write mono if there is only one of the first element.
• Normally, we do not have double vowels when writing names (oa oo)
Prefix name Prefix name -ide
Practice by naming these:
•NO2
•Cl2O7
•CBr4
•CO2
•BaCl2 (This one will not use prefixes, since it is an ionic compound!)
= nitrogen dioxide
= dichlorine heptoxide= carbon tetrabromide
= carbon dioxide
Write formulas for these:•diphosphorus pentoxide•tetraiodine nonoxide•phosphorus trifluoride•carbon tetrahydride•sulfur hexafluoride
more SF6
Section 9.4 p. 271Naming and Writing Formulas for Acids and Bases
Acids are…•Cmpds containing 1 or more H atoms & produces H ions (H1+) when dissolved in H2O•Chem formula starts with H followed by anion•anion determines acid name
Rules for Naming acids: Name it as normal cmpd first
1) If anion ends in –ide:1) Acid name begins w/ prefix hydro- 2) change -ide to -ic acid
• HCl(aq) - hydrogen ion and chloride ion = hydrochloric acid
• H2S(aq) hydrogen ion and sulfide ion = hydrosulfuric acid
Naming Acids• If anion has O, it ends in -ate or -ite2) change suffix -ate to -ic acid (no prefix)
• If you “ate” something acidic, you would probobaly say “ic”!If you “ate” something acidic, you would probobaly say “ic”!
• Example: HNO3 Hydrogen and nitrate ions = Nitric acid
3) change the suffix -ite to -ous acid (no prefix)
• Example: HNO2 Hydrogen and nitrite ions = Nitrous acid
Section 9.5 p. 274The Laws Governing Formulas and Names
• Review: Law of Conservation of Mass?Review: Law of Conservation of Mass?• Mass neither created or destroyed but is conserved during any chem rxn
Mass reactants = mass products
Mass cmpd = mass of SUM of elements in cmpd
•1. Law of Definite Proportions (mass) - in a sample of a pure cmpd, masses of elements always in same proportions
•CO2 (carbon dioxide)
•CO (carbon monoxide)
Law of Definite ProportionsLaw of Definite Proportions
Law of Multiple Proportions Law of Multiple Proportions (Dalton’s Law)(Dalton’s Law)
•2. Law of Multiple Proportions- Dalton stated whenever 2 elements form more than one cmpd, the different masses of 1 element that combine with the same mass of the other element are in the ratio of small whole numbers
Same mass of oxygen
- Page 275
Law of definite and multiple proportions
Guided Practice Problem 34 p. 275 (p. 90 #34 in workbook)
p. 275 practice problem #34Lead forms two compounds with oxygen. One compound contains 2.98 g of Pb and 0.461 g of O. The other contains 9.89 g of Pb and 0.763 g of O. For a given mass of oxygen, what is the lowest whole number mass ratio of lead in the two compounds?
Step 1. Write the ratio of lead to oxygen for each cmpd.
______g Pb 9.89 g Pb
0.461 g O ______g O
Step 2. Divide the numerator by the denominator in each ratio.
6.46 ______ _______g Pb
_________ g O
Step 3. Write a ratio comparing the first compound to the second.
_____ g Pb/g O
13.0 g Pb/g O
Step 4. Simplify. Note that this ratio has no units (they cancel out)
0.497 = roughly 1
1 __
The mass ratio of lead per gram of oxygen in the two compounds is: