joi, 5 ianuarie 2017

Chemical formulas

FORMULAS

A formula is a symbol, or a group of symbols that represents a substance. The symbols in a chemical formula identify the elements present in the substance.

EXAMPLES

Thus NaCl is the formula for sodium chloride (common table salt) and so identifies the elements sodium and chlorine as the constituents of salt.


H20, tells us that each molecule contains two atoms of hyrdogen and one atom of oxygen, or that there are two atoms of Hydrogen, and one atom of Oxygen. In other words that there are two atoms of hydrogen per one atom of oxygen (2 atoms H / 1 atom O)


The formula for aluminum sulfate, Al2(SO4)3, specifies two atoms of Aluminium, Al, for each three sulfate, SO4, groups. Each sulfate group contains one atom of sulfur and four atoms of oxygen. Hence, the formula shows a total of two atoms of aluminum, three atoms of sulfur, and twelve atoms of oxygen.

MOLECULAR FORMULAS

A molecular formula gives the actual numbers of atoms of ecah element in a molecule. This is called an Empirical Formula For example water where the formula shows that there are 2 atoms of hydrogen and one atom of oxygen. Since the simplest ratio of hydrogen atoms to oxygen atoms in water is 2 to 1, the empirical formula is also H2O. The molecular formula of benzene, C6H6, identifies the benzene is one carbon atom per one hydrogen atom. Thus the empirical formula of benzene is CH.

Many compounds do not contain discrete molecules but instead are composed of particles called ions. Ions are atoms or groups of atoms that are electrically charged. They usually arise in the combination of a metal and a nonmetal. Thus the composition of compounds such as NaCl, Al2(SO4)3, KOH, and CuSO4 cannot by identified in terms of the nubmer of atoms of each type in a molecule, but only in terms of a formula unit, as such compounds do not contain physically distinct and electrically neutral molecules.

The molecular formula of the most common form of sulfur is S8, showing that each molecule of this element consists of eight atoms. The molecular formulas for elemental hyrogen and oxygen are H2 and O2, while the formula for neon is Ne. Note that H2 and 2H do not mean the same thing. H2 represents a molecule of hydrogen consisting of two atoms of the element, chemically combined. The expression 2H, on the other hand, is that the two hydrogen atoms are not in combination as a unit but are separate particles.A formula is a single symbol or a group of symbols that represents a substance. The symbols in a chemical formula identify the elements present in the substance. Thus NaCl is the formula for sodium chloride (common table salt) and so identifies the elements sodium and chlorine as the constituents of salt.

SUBSCRIPTS

Subscripts are used in formulas to indicate the relative numbers of atoms of each type in the compond, but only if more than one atom of a given element is there. The formula for water, H20, tells us that each molecule contains two atoms of hyrdogen and one atom of oxygen, or that there are two atoms of Hydrogen, and one atom of Oxygen. In other words that there are two atoms of hydrogen per one atom of oxygen (2 atoms H / 1 atom O)

The formula of sodium chloride, NaCl, indicates the presence of equal numbers of atoms of the elements sodium and chlorine (1 atom Na / 1 atom Cl). Note that in the formulas for water and sodium chloride the subscript 1 is omitted, which is the usual practice.

The formula for aluminum sulfate, Al2(SO4)3, specifies two atoms of Aluminium, Al, for each three sulfate, SO4, groups. Each sulfate group contains one atom of sulfur and four atoms of oxygen. Hence, the formula shows a total of two atoms of aluminum, three atoms of sulfur, and twelve atoms of oxygen.






Chemical Compound List 
 
The list of Chemical Compound Formulas are given below.


S.NoName of the chemical compoundFormula
1Acetic acid formulaCH3COOH
2Hydrochloric acid formulaHCl
3Sulfuric acid formulaH2SO4
4Acetate formulaCH3COO-
5Ammonia formulaNH3
6Nitric acid formulaHNO3
7Phosphoric acid formulaH3PO4
8Sodium phosphate formulaNa3PO4
9Calcium carbonate formulaCaCO3
10Ammonium sulfate formula(NH4)2SO4
11Carbonic acid formulaH2CO3
12Sodium bicarbonate formulaNaHCO3
13Sodium hydroxide formulaNaOH
14Calcium hydroxide formulaCa(OH)2
15Ethanol formulaC2H5OH
16Hydrobromic acid formulaHBr
17Hydrosulfuric acid formulaH2SO4
18Nitrous acid formulaHNO2
19Potassium phosphate formulaKH2PO4
20Silver nitrate formulaAgNO3
21Sodium carbonate formulaNa2CO3
22Sodium chloride formulaNaCl
23Aaluminum hydroxide formulaAl(OH)3
24Magnesium hydroxide formulaMg(OH)3
25Methane formulaCH4
26Nitrogen monoxide formulaNO
27Potassium hydroxide formulaKOH
28Sodium nitrate formulaNaNO3
29Sulfurous acid formulaH2SO3
30Phosphate formulaPO4-
31Aluminum oxide formulaAl2O3
32Ammonia chemical formulaNH4
33Ammonium nitrate formulaNH4NO3
34Ammonium phosphate formula(NH4)3PO4
35Barium hydroxide formulaBa(OH)2
36Carbon tetrachloride formulaCCl4
37Citric acid formulaC6H8O7
38Hydrocyanic acid formulaHCN
39Hydrofluoric acid formulaHF
40Hydroiodic acid formulaHI
41Hypochlorous acid formulaHClO
42Iron iii oxide formulaFe2O3
43Magnesium phosphate formulaMg3(PO4)2
44Sodium acetate formulaC2H3NaO2
45Sodium sulfate formulaNa2SO4
46Sucrose formulaC12H22O11
47Potassium nitrate formulaKNO3
48Ammonium carbonate formula(NH4)2CO3
49Ammonium chloride formulaNH4Cl
50Ammonium hydroxide formulaNH4OH
51Calcium nitrate formulaCa(NO3)2
52Calcium oxide formulaCaO
53Carbon monoxide formulaCO
54Chlorine gas formulaCl2
55Hydrogen gas formulaH2
56Hydrogen peroxide formulaH2O2
57Hydroxide formulaOH-
58Magnesium chloride formulaMgCl2
59Magnesium oxide formulaMgO
60Potassium chloride formulaKCl
61Potassium iodide formulaKI
62Sulfur dioxide formulaSO2
63Vinegar chemical formulaC2H4O2
64Ammonium sulfide formula(NH4)2S
65Barium nitrate formulaBa(NO3)2
66Calcium acetate formulaCa(COO-)2
67Chlorous acid formulaHClO2
68Iron oxide formulaFe2O3
69Potassium carbonate formulaK2CO3
70Silver chloride formulaAgCl
71Sodium iodide formulaNaI
72Sodium oxide formulaNa2O
73Sodium sulfide formulaNa2S
74Sugar chemical formulaC12H22O11
75Zinc nitrate formulaZn(NO3)2
76Aluminum chloride formulaAlCl3
77Barium chloride formulaBaCl2
78Magnesium nitrate formulaMg(NO3)2
79Silicon dioxide formulaSiO2
80Acetone formulaC3H6O
81Aluminum acetate formulaAl2O(C2H3O2)4
82Aluminum bromide formulaAlBr3
83Ammonium acetate formulaC2H3O2NH4
84Barium phosphate formulaBa3O8P2
85Barium sulfate formulaBaSO4
86Benzene formulaC6H6
87Bicarbonate formulaCHO3-
88Chromate formulaCrO42-
89Copper ii nitrate formulaCu(NO3)2
90Cyanide formulaCN-
91Iron iii hydroxide formulaHFeO2
92Magnesium sulfate formulaMgSO4
93Methanol formulaCH3OH
94Nitrogen dioxide formulaNO2
95Oxygen gas formulaO2
96Barium acetate formulaBa(C2H3O2)2
97Sodium sulfite formulaNa2SO3
98Sulfur trioxide formulaSO3
99Aluminum phosphate formulaAlPO4
100Bromic acid formulaHBrO3
101Dinitrogen monoxide formulaN2O
102Formula for carbon monoxideCO
103Formula for carbonic acidH2CO3
104Formula for sodium carbonateNa2CO3
105Iron ii oxide formulaFeO
106Lithium phosphate formulaLi3PO4
107Oxalic acid formulaH2C2O4 
108Potassium dichromate formulaK2Cr2O7
109Salicylic acid formula C7H6O3
110Sodium bromide formulaNaBr
111Sodium hypochlorite formulaNaClO
112Zinc acetate formulaZn(O2CCH3)2
113Zinc chloride formulaZnCl2
114Zinc hydroxide formulaZn(OH)2
115Magnesium bicarbonate formulaMgCO3
116Potassium chlorate formulaKClO3
117Aluminum carbonate formulaAl2(CO3)3
118Ascorbic acid formulaC6H8O6
119Benzoic acid formulaC7H6O2
120Butane formulaC4H10
121Chlorine formula Cl2
122Formula for ammonium nitrate(NH4)(NO3)
123Formula for ammonium phosphate(NH4)3PO4
124Formula for carbon tetrachlorideCCl4
125Formula for nitrous acidHNO2
126Formula for potassium phosphateKH2PO4
129Hydrogen carbonate formulaCHO3-
130Hypochlorite formulaNaClO
131Lead nitrate formulaPb(NO3)2
132Magnesium carbonate formulaMgCO3
133Magnesium nitride formulaMg3N2
134Nitrite formulaNO2
135Perbromic acid formulaHBrO4
136Phosphate chemical formulaPO43-
137Phosphorus trichloride formulaPCl3
138Potassium acetate formulaCH3CO2K
139Potassium chromate formulaCrK2O4
140Zinc sulfate formulaZnSO4
141Iodine formulaI2
142Permanganate ion formulaMnO4-
143Aluminum formulaAl
144Aluminum iodide formulaAlI3
145Calcium bromide formulaCaBr2
146Chemical formula for citric acidC6H8O7
147Chlorate formulaClO-3
148Chromic acid formulaH2CrO4
149 Dihydrogen monoxide formulaH2O
150Dinitrogen pentoxide formulaN2O5
151Formula for hydrofluoric acidHF
152Hexane formulaC6H14 
153Hydrogen phosphate formulaH3PO4
154Iodic acid formulaHIO3
155Iron ii nitrate formulaFe(NO3)3
156Iron iii carbonate formulaFe2(CO3)3
157Lactic acid formulaC3H6O3
158Lead acetate formulaPb(C2H3O2)2
159Lead iv oxide formulaPbO2
160Lithium hydroxide formulaLiOH
161Magnesium acetate formulaMg(CH3COO)2
162Phosphorus pentachloride formulaPCl5
163Potassium oxide formulaK2O
164Potassium phosphate chemical formulaKH2PO4
165Silver acetate formulaAgC2H3O2
166Sodium citrate formulaNa3C6H5O7
167Sodium fluoride formulaNaF
168Sodium nitrite formulaNaNO2
169Sulfate ion formulaSO42−
170Barium oxide formulaBaO
171Calcium iodide formulaCaI2
172Hydrogen sulfate formulaHSO4-
173Lithium oxide formulaLi2O
174Nitride formula N3
175Permanganate formulaKMnO4
176Silver phosphate formulaAg3PO4
177Sodium carbonate chemical formulaNa2CO3
178Ammonium bromide formulaNH4Br
179Chemical formula for calcium phosphateCa3(PO4)2
180Dichromate formulaK2Cr2O7
181Formula for aluminum sulfideAl2S3
182Formula for ammonium carbonate(NH4)2CO3
183Formula for barium chlorideBaCl2
184Formula for calcium nitrateCa(NO3)2
185Formula for hydroiodic acidHI
186Formula for nitrogen monoxideNO
187Formula for potassium carbonateK2CO3
188Formula for potassium iodideKI
189Formula for potassium nitrateKNO3
190Formula for sodium oxideNa2O
191Fructose chemical formulaC6H12O6
192Magnesium iodide formulaMgI2
193Magnesium sulfide formulaMgS
194Ozone formulaO3
195Potassium cyanide formulaKCN
196Silver oxide formulaAg2O
197Sodium chromate formula Na2CrO4
198Sodium peroxide formulaNa2O2
199Toluene formulaC7H8
200Zinc carbonate formulaZnCO3
201Zinc phosphate formulaZn3(PO4)2
202Zinc sulfide formula ZnS
203Amino acid formulaR(NH2)-COOH
204 Boric acid formulaH3BO3
206Formula for magnesium phosphateMg3(PO4)2
207Oxalate formulaC2O42−
208Potassium bicarbonate formulaKHCO3
209Potassium hypochlorite formulaKClO3
210Potassium nitrite formulaKNO2
211Ammonium bicarbonate formulaNH4HCO3
212Ammonium iodide formulaNH4I
213Ammonium nitrate chemical formula (NH4)(NO3)
214Ammonium nitrite formulaNH4NO2
215Ammonium oxide formula(NH4)2O 
216Argon gas formulaAr
217Barium bromide formulaBaBr2
218Barium iodide formulaBaI2
219Bromate formulaBr
220Dinitrogen trioxide formulaN2O3
221 Ethylene glycol formulaC2H6O2
222Formula for hypochlorous acidHClO
223Formula for magnesium nitrateMgNO3
224Helium gas formulaHe
225Iodide formulaI2
226Lead ii acetate formulaPb(C2H3O2)2
227Lithium chloride formulaLiCl2
228Phosphate ion formulaPO43- 
229Potassium fluoride formulaKF
230Potassium sulfite formulaK2SO3
231Silver carbonate formulaAg2CO3
232Sodium cyanide formulaNaCN
233Sodium nitride formulaNa3N
234Strontium chloride formulaSrCl2
235Strontium nitrate formulaSr(NO3)2
236Urea formulaCH4N2O
237Bleach formulaNaClO
238Chemical formula for carbonic acidH2CO3
239Lithium bromide formulaLiBr
240Aluminum fluoride formulaAlF3
241Barium fluoride formulaBaF2
242Butanoic acid formulaC4H8O2
243Calcium hydride formulaCaH2
245Copper ii carbonate formulaCuCO3
246Ethanol structural formulaCH3CH2OH
247Fluorine gas formulaF2
248Formula for lithium phosphateLi3PO4
249Glycerol formulaC3H8O3
250Hypobromous acid formulaHBrO
251Hypoiodous acid formulaHIO
252Lead iodide formulaPbI2
253Lithium iodide formulaLiI2
254Magnesium oxide chemical formulaMgO
255Magnesium phosphate chemical formulaMg3PO4
256Nickel nitrate formula Ni(NO3)2
257Potassium chloride chemical formulaKCl
258Potassium nitrate chemical formulaKNO3
259Sodium dichromate formulaNa2Cr2O7
260Sodium nitrate chemical formulaNaNO3
261Tartaric acid formulaC4H6O6
262Zinc iodide formulaZnI2
263Bromine gas formulaBr2
264Formula for aluminum bromideAlBr3
265Formula for barium sulfateBaSO4
267Nickel acetate formulaNi(C2H3O2)2

List of Organic Compounds


The common and IUPAC names of the organic compounds in the order of their functional groups are given in a tabular form below:

Alkanes

Structure Common nameIUPAC name
CH3-CH2-CH2-CH3n-ButaneButane
(CH3)2CH CH3iso-Butane2-methyl propane
CH3(CH2)4CH3 n-hexaneHexane
CH3.(CH3)2.C.CH3neo pentane2,2-di methyl propane
CH4methanemethane
CH3-CH3EthaneEthane
CH3-CH2-CH3PropanePropane

Alkenes
CH2=CH2EthyleneEthene
CH3-CH=CH2PropylenePropene
CH3-CH2-CH=CH2Unsym butylene1-butene
CH3-CH=CH-CH3Sym butene2-butene

Alkynes
H-C≡C-HAcetyleneEthyne
CH3-C≡C-HMethyl acetylene/
Propylene		Propyne
CH3-CH2-C≡C-HEthyl acetylene/
Butylene		1-butyne
CH3-C≡C-CH3Di methyl acetylene
Butylene		2-butyne

Alcohols
CH3-OHMethyl alcoholMethanol
CH3-CH2-OHEthyl alcoholEthanol
CH3-CH2-CH2-OHn- Propyl alcoholPropanol
CH3-CH(OH)-CH3iso-propyl alcohol1-propanol

Ethers
CH3-O-CH3Dimethyl etherMethoxy methane
CH3-CH2-O-CH2-CH3Diethyl etherEthoxy ethane
CH3-O-CH2-CH3Ethylmethylethermethoxy ethane

Aldehydes
HCHOFormaldehydeMethanal
CH3CHOAcetaldehydeEthanal
CH3-CH2-CHOPropanaldehydePropanal

Ketones
CH3COCH3AcetonePropanone
CH3-CH2-CO-CH3Ethyl methyl ketoneButanone

Carboxylic acids
HCOOHFormic acidMethanoic acid
CH3COOHAcetic AcidEthanoic acid
CH3-CH2COOHPropionic acidPropanoic acid
CH3-CH2-CH2-COOHn-butyric acidButanoic acid

Esters

H-CO-OCH3Methyl formateMethyl methanoate
CH3-CO-OCH2-CH3Ethyl acetateEthyl ethanoate

Alkyl halides
CH3-ClMethyl chlorideChloromethane
CH3-CH2-BrEthyl bromideBromoehtane

Acid Chloride
H-COClFormyl chlorideMethanoyl chloride
CH3-COClAcetyl chlorideEthanoyl chloride

Acid amides
H-CO-NH2 FormamideMethanamide
CH3-CO-NH2AcetamideEthanamide

Amines (Primary)
CH3-NH2Methyl amineMethanamine
CH3-CH2-NH2Ethyl amineEthanamine

Amines (Secondary)
(CH3)2-NHDi methyl amineN-methyl methanamine
CH3-CH2-(CH3)-NHEthyl methyl amineN-methylethanamine

Amines (Tertiary)
(CH3)3Ntri methyl amineN,N-dimethyl methanamine
CH3-CH2(CH3)2NEthyl dimethyl amineN,N-dimethyl ethanamine

Other common names for compounds:
C6H6(Benzene), C6H5.OH (Phenol) C6H5.NH2 ( Aniline), C6H5.CH3( Toluene) C6H5COOH(Benzoic acid) C12H22O11(Sucrose).
Many other compounds have names, still in use, which are not in connivance with IUPAC guidelines but accepted, e.g., Camphor, Naphthalene, Anthracene, Isoprene, etc.


Root words indicate the number of carbon atoms in the main chain like meth, eth, prop, dec, etc.

No. of C atoms RootNo of C atomsRoot No of C atomsRoot
1Meth2Et3Prop
4But5Pent6Hex
7Hept8Oct9Non
10Dec11Undec12Dodec
13Trindec14Tetradec20Eicossa

Suffix is further divided into primary suffix and secondary suffix. Primary suffix indicates the saturation or unsaturation like -ene for alkene, present in the compound. If there are more than one, double or triple bonds, this is also mentioned as di, tri, tetra, etc.
Example: CH2=CH-CH2-CH=CH2 is 1,4-pentadiene.Secondary suffix indicates the functional group present in the compound.

The functional groups are mentioned as follows :
  • Alcohol -ol
  • Aldehyde -al
  • Ketone -one
  • Carboxylic acid -oic acid
  • Ester -oate
  • Acid chloride -oyl chloride
  • Alkyl cyanide -nitrile etc..
Groups like amine, amide nitro are used completely. For compounds with multiple functional groups a preferential system is designed.
The order of preference will be Acid, Acid ester, acid halide, acid amide, cyanide, aldehyde, ketone, amine, alcohol, ether, alkene, alkylhalide and branched chain. The functional groups are named in this order with the higher placed one taking preference.

In the case of the compounds, the term cyclo is added before the root word like 2-methyl cyclohexene. Aromatic compounds like benzene, toluene will retain their common names in their substituted compounds.
Chemical formulas re designations of molecules and compounds in shorthand notation, similar to that used in Algebra.
Shorthand for elements
Elements can be written as abbreviations or in a shorthand notation. For example, He denotes helium, Fe denotes iron, and Cl denotes chlorine. A chemical formula is writing the elements of a compound, using their abbreviations.
Designation of a molecule
The combination of two or more elements to form a molecule is designated by writing their abbreviations next to each other. For example carbon monoxide is written as CO. The order in which the elements are written is typically alphabetical, but there are a number of exceptions for historical reasons and to clarify the geometry of the molecule.
Number of atoms in a molecule
If there is more than one atom of a type in the molecule, the formula shows it by a small number after the symbol.
For example, water is H2O, which means there are 2 atoms of hydrogen and one atom of oxygen in the molecule.
Carbon dioxide is CO2, which means there is one atom of carbon and two atoms of oxygen in the molecule.
Number of molecules
To show the number of molecules, a full sized number is located in front of the molecule. For example 4 molecules of carbon dioxide is designated as:
4CO2
This means there are a total of 4 C atoms and 8 O atoms in the combination. A way to remember this--taken from Algebra--is to think of it as 4 x (CO2).
Complex formulas
Just as in Algebra, you can use parentheses to separate parts in a complex formula. One example is the formula for nitroglycerin, a highly explosive substance.
C3H5(NO3)3
This formula shows that nitroglycerin consists of 3 atoms of C, 5 atoms of H and then 3 NO3 nitrate ions. If the parentheses were not used, you might have a formula like:
C3H5N3O9
The number of atoms for each element would be correct, but it wouldn't help to describe the true structure of the nitroglycerin molecule.
Chemical Formulas
Chemical formulas such as HClO4 can be divided into empirical formula, molecular formula, and structural formula.
Chemical symbols of elements in the chemical formula represent the elements present, and subscript numbers represent mole proportions of the proceeding elements. Note that no subscript number means a subscript of 1.
From a chemical point of view, an element contained in the substance is a fundamental question, and we represent the elemental composition by a chemical formula, such as H2O for water. This formula implies that the water molecules consist of 2 hydrogen, and 1 oxygen atoms. The formula H2O is also the molecular formula of water. For non-molecular substances such as table salt, we represent the composition with an empirical formula. Sodium chloride is represented by NaCl, meaning that sodium and chlorine ratio in sodium chloride is 1 to 1. Again, the subscript 1 is omitted. Since table salt is an ionic compound, the formula implies that numbers of Na+ ions, and Cl- ions are the same in the solid. The subscript numbers in an empirical formula should have no common divisor.
H H
| |
H-C-C-O-H
| |
H H
Structural of
CH3CH2OH A 3-Dimensional
structure of C6H12
A structural formula reflects the bonding of atoms in a molecule or ion. For example, ethanol can be represented by CH3CH2OH. This is a simple way of representing a more elaborated structure shown on your left. Molecular structures are often beautiful, but the representation is an artwork. For example, a 3-dimensional structure of cyclohexane is shown on the right. This is a chair form, and another structure has a boat form. You will learn more about it in organic chemistry. The molecular formula of benzene is C6H6, and its empirical formula is CH.
You may refer to a substance by its name, and recognize it by its properties. Properties are related to the structure and the composition of the molecules. Knowing the chemical formula is a giant step towards understanding a substance.
Weak Acids and Bases
Weak acids and bases are only partially ionized in their solutions, whereas strong acids and bases are completely ionized when dissolve in water.
Common Weak Acids
Acid Formula
Formic HCOOH
Acetic CH3COOH
Trichloroacetic CCl3COOH
Hydrofluoric HF
Hydrocyanic HCN
Hydrogen
sulfide H2S
Water H2O
Conjugate acids of weak bases NH4+
Common Weak Bases Base Formula
ammonia NH3
trimethyl
ammonia N(CH3)3
pyridine C5H5N
ammonium
hydroxide NH4OH
water H2O
HS- ion HS-
conjugate bases of weak acids e.g.:
HCOO-
Some common weak acids and bases are given here. Furthermore, weak acids and bases are very common, and we encounter them often both in the academic problems and in everyday life.
The ionization of weak acids and bases is a chemical equilibrium phenomenon. The equilibrium principles are essential for the understanding of equilibria of weak acids and weak bases.
The conjugate acid-base pairs have been discussed in Acids and Bases. In this connection, you probably realize that conjugate acids of weak bases are weak acids and conjugate bases of weak acids are weak bases. Ionization of Week Acids H O | //
H--C--C | \\ H O-
Acetic acid, CH3COOH, is a typical weak acid, and it is the ingradient of vinegar. It is partially ionized in its solution.
CH3COOH = CH3COO- + H+
The structure of the acetate ion, CH3COO-, is shown on the right.
Chemical formulas and oxidation numbers
What is the chemical formula for sodium chloride?
A sodium atom will form an ionic bond with a chlorine atom to make a molecule of sodium chloride. Because sodium chloride is a compound made out of ions, it is called an ionic compound
. The chemical formula for sodium chloride is NaCl.
This formula indicates that every molecule of sodium chloride contains one atom of sodium and one atom of chlorine, a 1:1 ratio.
Why do sodium and chlorine combine in a 1:1 ratio? When sodium loses one electron, it becomes an ion with a charge of +1. When chlorine gains an electron, it becomes an ion with a charge of -1. When these two ions combine to form an ionic bond, the net electrical charge is zero. This is because (+1) + (-1) = 0.
All compounds have an electrical charge of zero; that is, they are neutral.
Oxidation numbers
A 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+ .
An oxidation number indicates how many electrons are lost, gained, or shared when bonding occurs. Notice that the convention for writing oxidation numbers is the opposite of the convention for writing the charge. When writing the oxidation number, the positive (or negative) symbol is written after the number, not before it.
What is chlorine’s oxidation number? If you think it is 1-, you are right. This is because chlorine gains one electron, one negative charge, when it bonds with other atoms.
Predicting oxidation numbers from the periodic table
Here you can tell how many valence electrons an element has by its placement on the periodic table. If you can determine how many valence electrons an element has, you can predict its oxidation number. For example, locate beryllium (Be) on the periodic table below. It is in the second column, or Group 2, which means beryllium has two valence electrons. Will beryllium get rid of two electrons, or gain six in order to obtain a stable octet? Of course, it is easier to lose two electrons. When these two electrons are lost, beryllium becomes an ion with a charge of +2. Therefore, the most common oxidation number for beryllium is 2+. In fact, the most common oxidation number for all elements in Group 2 is 2+.
Writing the chemical formulas of ionic compounds.
Monoatomic ions
Both sodium and chlorine ions are monoatomic ions , that is, ions that consist of a single atom. It’s easy to write the chemical formula for compounds made of monatomic ions, if you follow these rules: Some elements have more than one oxidation number. In this case, roman numerals are used to distinguish the oxidation number. Figure 19.17 shows a few of these elements.
Example: Writing a chemical formula
Write the formula for a compound that is made of iron (III) and oxygen.
1. Find the oxidation numbers of each element in the compound. Iron (III) is a transition metal. The roman numbers indicate that it has an oxidation number of 3+. Its formula is Fe
3+ .
Oxygen is in group 18 of the periodic table and has an oxidation number of 2-. Its formula is O
2- .
2. Determine the ratios of each element and write the chemical formula.
If one iron (III) ion bonds with one oxygen ion, will the compound be neutral? No, since 3+ added to 2- equals 1+. If you have two iron (III) ions for every three oxygen ions, what happens? 2(3+) added to 3(2-) is equal to 0. This means that three iron (III) ions bond with two oxygen ions to get a neutral compound.
The formula for a compound of iron (III) and oxygen is Fe
2
O
3
Ionic compounds made of more than two types of atoms
Have you ever taken an antacid for an upset stomach? Many antacids contain calcium carbonate, or CaCO 3 . How many types of atoms does this compound contain? You are right if you said three: calcium, carbon, and oxygen. Some ionic compounds contain polyatomic ions . Polyatomic ions contain more than one type of atom. The prefix poly means “many.” Table lists some common polyatomic ions.







Symbols and Charges for Monoatomic Ions


Symbol Name Symbol Name
H+ hydrogen ion H- hydride
Li+ lithium ion F- fluoride
Na+ sodium ion Cl- chloride
K+ potassium ion Br- bromide
Rb+ rubidium ion I- iodide
Cs+ cesium ion O2- oxide
Be2+ beryllium ion S2- sulfide
Mg2+ magnesium ion Se2- selenide
Ca2+ calcium ion Te2- telluride
Sr2+ strontium ion N3- nitride
Ba2+ barium ion P3- phosphide
Ra2+ radium ion As3- arsenide
Ag+ silver ion Ni2+ nickel ion
Zn2+ zinc ion Al3+ aluminum ion
Symbols and Charges for Monoatomic Ions
Systematic name Common Systematic name Common
Symbol (Stock system) name Symbol (Stock system) name
Cu+ copper(I) cuprous Hg22+ mercury(I) mercurous
Cu2+ copper(II) cupric Hg2+ mercury(II) mercuric
Fe2+ iron(II) ferrous Pb2+ lead(II) plumbous
Fe3+ iron(III) ferric Pb4+ lead(IV) plumbic
Sn2+ tin(II) stannous Co2+ cobalt(II) cobaltous
Sn4+ tin(IV) stannic Co3+ cobalt(III) cobaltic
Cr2+ chromium(II) chromous Au+ gold(I) aurous
Cr3+ chromium(III) chromic Au3+ gold(III) auric
Mn2+ manganese(II) manganous
Mn3+ manganese(III) manganic
Symbols and Charges for Polyatomic Ions
Formula Name Formula Name
NO3- nitrate ClO4- perchlorate
NO2- nitrite ClO3- chlorate
CrO42- chromate ClO2- chlorite
Cr2O72- dichromate ClO- hypochlorite
CN- cyanide IO4- periodate
MnO4- permanganate IO3- iodate
OH- hydroxide IO- hypoiodite
O22- peroxide BrO3- bromate
NH2- amide BrO- hypobromite
CO32- carbonate HCO3- hydrogen carbonate (bicarbonate)
SO42- sulfate HSO4- hydrogen sulfate (bisulfate)
SO32- sulfite HSO3- hydrogen sulfite (bisulfite)
C2O42- oxalate HC2O4- hydrogen oxalate (binoxalate)
PO43- phosphate HPO42- hydrogen phosphate
PO33- phosphite H2PO4- dihydrogen phosphate
S2O32- thiosulfate HS- hydrogen sulfide
AsO43- arsenate BO33- borate
SeO42- selenate B4O72- tetraborate
SiO32- silicate SiF62- hexafluorosilicate
C4H4O62- tartrate SCN- thiocyanate
C2H3O2- acetate (an alternate way to write acetate is CH3COO-)
There is one positive polyatomic ion. It is NH4+ and is called the ammonium ion.


Molecular formulas can be calculated using empirical formulas:

  • Given that the empirical formula of a compound is CH and the molar mass is 104 g/mol, calculate the molecular formula.
      mass of C  =  12.0 g/mol
      mas of H  =   1.01 g/mol
      empirical formula mass  =   13.0 g/mol
  • to find the number of CH units in the compound:
  • # CH units  =   (104 g/mol)(1 mol/13.0 g)  =   8.00
  • Molecular formula  =   8(CH) or C8H8

Empirical formulas can be calculated using experimental data:

  • Given that a certain compound is 69.58% Ba, 6.090% C and 24.32% O, calculate the empirical formula of this compound.
  • Assume that you have 100.00 g of the compound:
    • 69.58%  Ba  =  69.58 g Ba
    • 6.090% C  =   6.090 g C
    • 24.32% O  =   24.32 g O
  • Convert the mass of each element to moles of that element:
    • Ba  =  (69.58 g Ba)(1 mol Ba/137.3 g Ba)  =  0.5068 mol Ba
    • C  =   (6.090 g C)(1 mol C/12.01 g C)  =   0.5071 mol C
    • O  =   (24.32 g O)(1 mol O/16.00 g O)  =   1.520 mol O
  • Divide through each value by the smallest number of moles to get a 1 : 1.001 : 2.999 ratio, which rounds of nicely to give the formula BaCO3


    • Empirical and Molecular Formulas

    Believe it or not, there is more than one kind of chemical formula (insert a sharp gasp of surprise here). Judging from the heading of this section, they would be empirical and molecular formulas. Empirical formulas give the lowest whole number ratio of the atoms in a compound, whereas the molecular formula gives the exact composition of one molecule.
    EmpiricalMolecular
    HOH2O2
    CHC2H2
    CHC6H6
    NONO
    NO2N2O4



    Chemical Names and Formulas

     


    AB
    AmmoniaNH3
    Carbon dioxideCO2
    Carbon monoxideCO
    ChlorineCl2
    Hydrogen chlorideHCl
    HydrogenH2
    Hydrogen sulfideH2S
    MethaneCH4
    NitrogenN2
    Nitrogen (II) oxideNO
    OxygenO2
    Sulfur dioxideSO2
    Aluminun oxideAl2O3
    Barium SulfateBaSO4
    Calcium hydroxideCa(OH)2
    Copper (II) sulfateCuSO4
    EthaneC2H6
    Ethene (ethylene)C2H4
    Ethyne (acetylene)C2H2
    Hydrogen fluorideHF
    Hydrogen iodideHI
    Iodine chlorideICl
    Lead (II) oxidePbO
    Magnesium oxideMgO
    Nitrogen (II) oxideNO
    Nitrogen (IV) oxideNO2
    Potassium chlorideKCl
    Sodium chlorideNaCl
    Sulfur dioxideSO2
    WaterH2O
    Aluminum BromideAlBr3
    Aluminum CarbonateAl2(CO3)3
    Aluminum ChlorideAlCl3
    Aluminum ChromateAl2(CrO4)3
    Aluminum HydroxideAl(OH)3
    Aluminum IodideAlI3
    Aluminum NitrateAl(NO3)3
    Aluminum PhosphateAlPO4
    Aluminum SulfateAl2(SO4)3
    Aluminum SulfideAl2S3
    Ammonium AcetateNH4C2H3O2
    Ammonium BromideNH4Br
    Ammonium Carbonate(NH4)2CO3
    Ammonium ChlorideNH4Cl
    Ammonium Chromate(NH4)2CrO4
    Ammonium HydroxideNH4OH
    Ammonium IodideNH4I
    Ammonium NitrateNH4NO3
    Ammonium Phosphate(NH4)3PO4
    Ammonium Sulfate(NH4)2SO4
    Ammonium Sulfide(NH4)2S
    Barium AcetateBa(C2H3O2)2
    Barium BromideBaBr2
    Barium CarbonateBaCO3
    Barium ChlorideBaCl2
    Barium ChromateBaCrO4
    Barium HydroxideBa(OH)2
    Barium IodideBaI2
    Barium NitrateBa(NO3)2
    Barium PhosphateBa3(PO4)2
    Barium SulfateBaSO4
    Barium SulfideBaS
    Calcium AcetateCa(C2H3O2)2
    Calcium BromideCaBr2
    Calcium CarbonateCaCO3
    Calcium ChlorideCaCl2
    Calcium ChromateCaCrO4
    Calcium HydroxideCa(OH)2
    Calcium IodideCaI2
    Calcium NitrateCa(NO3)2
    Calcium PhosphateCa3(PO4)2
    Calcium SulfateCaSO4
    Calcium SulfideCaS
    Copper (II) AcetateCu(C2H3O2)2
    Copper (II) BromideCuBr2
    Copper (II) CarbonateCuCO3
    Copper (II) ChlorideCuCl2
    Copper (II) ChromateCuCrO4
    Copper (II) HydroxideCu(OH)2
    Copper (II) IodideCuI2
    Copper (II) NitrateCu(NO3)2
    Copper (II) PhosphateCu3(PO4)2
    Copper (II) SulfateCuSO4
    Copper (II) SulfideCuS
    Iron (II) AcetateFe(C2H3O2)2
    Iron (II) BromideFeBr2
    Iron (II) CarbonateFeCO3
    Iron (II) ChlorideFeCl2
    Iron (II) ChromateFeCrO4
    Iron (II) HydroxideFe(OH)2
    Iron (II) IodideFeI2
    Iron (II) NItrateFe(NO3)2
    Iron (II) PhosphateFe3(PO4)2
    Iron (II) SulfateFeSO4
    Iron (II) SulfideFeS
    Iron (III) AcetateFe(C2H3O2)3
    Iron (III) BromideFeBr3
    Iron (III) CarbonateFe2(CO3)3
    Iron (III) ChlorideFeCl3
    Iron (III) ChromateFe2(CrO4)3
    Iron (III) HydroxideFe(OH)3
    Iron (III) IodideFeI3
    Iron (III) NitateFe(NO3)3
    Iron (III) PhosphateFePO4
    Iron (III) SulfateFe2(SO4)3
    Iron (III) SulfideFe2S3
    Magnesium AcetateMg(C2H3O2)2
    Magnesium BromideMgBr2
    Magnesium CarbonateMgCO3
    Magnesium ChlorideMgCl2
    Magnesium ChromateMgCrO4
    Magnesium HydroxideMg(OH)2
    Magnesium IodideMgI2
    Magnesium NitrateMg(NO3)2
    Magnesium PhosphateMg3(PO4)2
    Magnesium SulfateMgSO4
    Magnesium SulfideMgS
    Mercury (I) AcetateHgC2H3O2
    Mercury (I) BromideHgBr
    Mercury (I) CarbonateHg2CO3
    Merucry (I) ChlorideHgCl
    Mercury (I) ChromateHg2CrO4
    Merucry (I) HydroxideHgOH
    Mercury (I) IodideHgI
    Mercury (I) NitrateHgNO3
    Mercury (I) PhosphateHg3PO4
    Mercury (I) SulfateHg2SO4
    Mercury (I) SulfideHg2S
    Merucry (II) AcetateHg(C2H3O2)2
    Mercury (II) BromideHgBr2
    Mercury (II) CarbonateHgCO3
    Merucry (II) ChlorideHgCl2
    Mercury (II) ChromateHgCrO4
    Mercury (II) HydroxideHg(OH)2
    Mercury (II) IodideHgI2
    Mercury (II) NitrateHg(NO3)2
    Mercury (II) PhosphateHg3(PO4)2
    Merucry (II) SulfateHgSO4
    Mercury (II) SulfideHgS
    Potassium AcetateKC2H3O2
    Potassium BromideKBr
    Potassium CarbonateK2CO3
    Potassium ChlorideKCl
    Potassium ChromateK2CrO4
    Potassium HydroxideKOH
    Potassium IodideKI
    Potassium NitrateKNO3
    Potassium PhosphateK3PO4
    Potassium SulfateK2SO4
    Potassium SulfideK2S
    Silver AcetateAgC2H3O2
    Silver BromideAgBr
    Silver CarbonateAg2CO3
    Silver ChlorideAgCl
    Silver ChromateAg2CrO4
    Silver HydroxideAgOH
    Silver IodideAgI
    Silver NitrateAgNO3
    Silver PhosphateAg3PO4
    Silver SulfateAg2SO4
    Silver SulfideAg2S
    Sodium AcetateNaC2H3O2
    Sodium BromideNaBr
    Sodium CarbonateNa2CO3
    Sodium ChlorideNaCl
    Sodium ChromateNa2CrO4
    Sodium HydroxideNaOH
    Sodium IodideNaI
    Sodium NitrateNaNO3
    Sodium PhosphateNa3PO4
    Sodium SulfateNa2SO4
    Sodium SulfideNa2S
    Zinc AcetateZn(C2H3O2)2
    Zinc BromideZnBr2
    Zinc CarbonateZnCO3
    Zinc ChlorideZnCl2
    Zinc ChromateZnCrO4
    Zinc HydroxideZn(OH)2
    Zinc IodideZnI2
    Zinc NitrateZn(NO3)2
    Zinc PhosphateZn2(PO4)2
    Zinc SulfateZnSO4
    Zince SulfideZnS
    Lead (II) AcetatePb(C2H3O2)2
    Lead (II) BromidePbBr2
    Lead (II) CarbonatePbCO3
    Lead (II) ChloridePbCl2
    Lead (II) ChromatePbCrO4
    Lead (II) HydroxidePb(OH)2
    Lead (II) IodidePbI2
    Lead (II) NitratePb(NO3)2
    Lead (II) PhosphatePb3(PO4)2
    Lead (II) SulfatePbSO4
    Lead (II) SulfidePbS
    Lead (IV) AcetatePb(C2H3O2)4
    Lead (IV) BromidePbBr4
    Lead (IV) ChromatePb(CO3)2
    Lead (IV) HydroxidePb(OH)4
    Lead (IV) IodidePbI4
    Lead (IV) NitratePb(NO3)4
    Lead (IV) PhosphatePb3(PO4)4
    Lead (IV) SulfatePb(SO4)2
    Lead (IV) SulfidePbS2
    Aluminum AcetateAl(C2H3O2)3
    Publicat de la Un comentariu:
    Abonați-vă la: Postări (Atom)