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1 Chemical Reactions & Periodicity In the next sections periodicity will be applied to the chemical reactions of hydrogen, oxygen, and their compounds.

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Presentation on theme: "1 Chemical Reactions & Periodicity In the next sections periodicity will be applied to the chemical reactions of hydrogen, oxygen, and their compounds."— Presentation transcript:

1 1 Chemical Reactions & Periodicity In the next sections periodicity will be applied to the chemical reactions of hydrogen, oxygen, and their compounds.

2 2 Hydrogen and the Hydrides Hydrogen gas, H 2, can be made in the laboratory by the reaction of a metal with a nonoxidizing acid. Mg + 2 HCl  MgCl 2 + H 2 Hydrogen is commercially prepared by the thermal cracking of hydrocarbons. C 4 H 10  2 C 2 H 2 + 3 H 2

3 3 Reactions of Hydrogen and the Hydrides Hydrogen reacts with active metals, groups IA and IIA, to yield hydrides. 2 K + H 2  2 KH Ba + H 2  BaH 2

4 4 Reactions of Hydrogen and the Hydrides The H - reacts with water to produce H 2 and OH -. H - + H 2 O  H 2 + OH - For example, the reaction of LiH with water proceeds in this fashion.

5 5 Reactions of Hydrogen and the Hydrides Hydrogen reacts with nonmetals to produce covalent compounds. H 2 + F 2  2 HF H 2 + Br 2  2 HBr 2 H 2 + O 2  2 H 2 O 8 H 2 + S 8  8 H 2 S

6 6 Reactions of Hydrogen and the Hydrides The hydrides of Group VIIA and VIA hydrides are acidic.

7 7 Reactions of Hydrogen and the Hydrides There is an important periodic trend evident in the ionic or covalent character of hydrides. 1. Metal hydrides 1. Metal hydrides are ionic compounds and form basic aqueous solutions. 2. Nonmetal hydrides 2. Nonmetal hydrides are covalent compounds and form acidic aqueous solutions.

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9 9 Oxygen and the Oxides Joseph Priestley discovered oxygen in 1774 using this reaction: 2 HgO (s)  2 Hg ( ) + O 2(g) 2 KClO 3 (s)  2 KCl (s) + 3 O 2(g) A common laboratory preparation method for oxygen is: Commercially, oxygen is obtained from the fractional distillation of liquid air.

10 10 Oxygen and the Oxides Ozone (O 3 ) is an allotropic form of oxygen which has two resonance structures. 2 O 3(g)  3 O 2(g) in presence of UV Ozone is an excellent UV light absorber in the earth’s atmosphere.

11 11 Reactions of Oxygen and the Oxides Oxygen is an extremely reactive element. O 2 reacts with most metals to produce normal oxides having an oxidation number of –2. 4 Li (s) + O 2(g)  2 Li 2 O (s) 2 Na (s) + O 2(g)  Na 2 O 2(s) However, oxygen reacts with sodium to produce a peroxide having an oxidation number of –1.

12 12 Reactions of Oxygen and the Oxides Oxygen reacts with K, Rb, and Cs to produce superoxides having an oxidation number of -1/2. 2 Na (s) + O 2(g)  Na 2 O 2(s)

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14 14 Reactions of Oxygen and the Oxides At high oxygen pressures the IIA metals can form peroxides. Ca (s) + O 2(g)  CaO 2(s) 2 Mn (s) + O 2(g)  2 MnO (s) 4 Mn (s) + 3 O 2(g)  2 Mn 2 O 3(s) Metals that have variable oxidation states, such as the d-transition metals, can form variable oxides. For example, in limited oxygen: In excess oxygen:

15 15 Reactions of Oxygen and the Oxides Oxygen reacts with nonmetals to form covalent nonmetal oxides. In limited oxygen 2 C (s) + O 2(g)  2 CO (g) C (s) + O 2(g)  CO 2(g) In excess oxygen

16 16 Reactions of Oxygen and the Oxides Phosphorous reacts similarly to carbon forming two different oxides depending on the oxygen amounts: In limited oxygen P 4(s) + 3 O 2(g)  P 4 O 6(s) P 4(s) + 5 O 2(g)  P 4 O 10(s) In excess oxygen

17 17 Reactions of Oxygen and the Oxides acidic Similarly to the nonmetal hydrides, nonmetal oxides are acidic. They react with water to produce ternary acids. For example: CO 2(g) + H 2 O ( )  H 2 CO 3(aq) Cl 2 O 7(s) + H 2 O ( )  2 HClO 4(aq) As 2 O 5(s) + 6 H 2 O ( )  4 H 3 AsO 4(aq)

18 18 Reactions of Oxygen and the Oxides basic Similarly to the hydrides, metal oxides are basic. These are called basic anhydrides. They react with water to produce ionic metal hydroxides (bases) Li 2 O (s) + H 2 O ( )  2 LiOH (aq) CaO (s) + H 2 O ( )  Ca(OH) 2(aq) ionicbasic Metal oxides are usually ionic and basic. covalentacidic Nonmetal oxides are usually covalent and acidic.

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22 22 Reactions of Oxygen and the Oxides Nonmetal oxides react with metal oxides to produce salts. Li 2 O (s) + SO 2(g)  Li 2 SO 3(s) Cl 2 O 7(s) + MgO (s)  Mg(ClO 4 ) 2(s)

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24 24 Combustion Reactions Combustion reactions are exothermic redox reactions One example of extremely exothermic reactions is the combustion of hydrocarbons. C 5 H 12(g) + 8 O 2(g)  5 CO 2(g) + 6 H 2 O (g) 2 C 4 H 10(g) + 13 O 2(g)  8 CO 2(g) + 10 H 2 O (g)

25 25 Fossil Fuel Contaminants When fossil fuels are burned, they frequently have contaminants in them. Sulfur contaminants in coal are a major source of air pollution. Sulfur combusts in air. S 8(g) + 8 O 2(g)  8 SO 2(g) 2 SO 2(g) + O 2(g)  2 SO 3(g) SO 3(g) + H 2 O ( )  H 2 SO 4(aq) Next, a slow air oxidation of sulfur dioxide occurs. Sulfur trioxide is a nonmetal oxide, i.e. an acid anhydride.

26 26 Fossil Fuel Contaminants This combustion reaction occurs in a car’s cylinders during combustion of gasoline. N 2(g) + O 2(g)  2 NO (g) 2 NO (g) + O 2(g)  2 NO 2(g) After the engine exhaust is released, a slow oxidation of NO in air occurs.

27 27 Fossil Fuel Contaminants NO 2 is also an acid anhydride. It reacts with water to form acid rain and, unfortunately, the NO is recycled to form more acid rain. 3 NO 2(g) + H 2 O ( )  2 HNO 3(aq) + NO (g)

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