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PART 3: Oxides and chorides of the third period (sodium  argon)

Published byἈπολλωνία Γιαννακόπουλος Modified over 6 years ago

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Presentation on theme: "PART 3: Oxides and chorides of the third period (sodium  argon)"— Presentation transcript:

1 PART 3: Oxides and chorides of the third period (sodium  argon)

2 Oxides of Period 3 Elements

3 Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O)
State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide

4 solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275
Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O) State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275 2852 2027 1610 24 17 -92 - 3600 2980 2230 175 45 80

5 solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275
Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O) State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275 2852 2027 1610 24 17 -92 - 3600 2980 2230 175 45 80 very poor good none

6 simple covalent molecular
Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O) State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275 2852 2027 1610 24 17 -92 - 3600 2980 2230 175 45 80 very poor good none covalent macro- molecular simple covalent molecular ionic

7 Left side of PT: oxides of Na, Mg and Al
Physical properties - melting points, boiling points & conductivity: (from left  right) Left side of PT: oxides of Na, Mg and Al ionic (metal + nonmetal… large difference in electronegativity) Ionic solids have high melting points Ionic solids are capable of conducting electricity in molten state (moving charge = electricity)

8 Middle of PT: oxide of Si (silicon dioxide)
Physical properties - melting points, boiling points & conductivity: (from left  right) Middle of PT: oxide of Si (silicon dioxide) macromolecular structure Strong diamond-like structure (covalently bonded network) accounts for high boiling point diamond SiO2

9 Right side of PT: oxides of P, S and Cl
Physical properties - melting points, boiling points & conductivity: (from left  right) Right side of PT: oxides of P, S and Cl simple covalent molecules difference in electronegativities between element and oxygen is small low melting and boiling points

10 simple covalent molecular
Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O) State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275 2852 2027 1610 24 17 -92 - 3600 2980 2230 175 45 80 very poor good none covalent macro- molecular simple covalent molecular ionic Forms MgOH2(aq), Weakly alkaline Forms NaOH(aq), alkaline does not react P4O10 forms H3PO4(aq), a weak acid SO3 forms H2SO4(aq), a strong acid does not react Cl2O7 forms HClO4(aq), a strong acid

11 simple covalent molecular
Formula Na2O MgO Al2O3 SiO2 P4O10 (P4O6) SO3 (SO2) Cl2O7 (Cl2O) State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of oxide solid liquid liquid solid solid solid solid (solid) (gas) (gas) 1275 2852 2027 1610 24 17 -92 - 3600 2980 2230 175 45 80 very poor good none covalent macro- molecular simple covalent molecular ionic Forms MgOH2(aq), Weakly alkaline Forms NaOH(aq), alkaline does not react P4O10 forms H3PO4(aq), a weak acid SO3 forms H2SO4(aq), a strong acid does not react Cl2O7 forms HClO4(aq), a strong acid basic amphoteric acidic

12 Chemical properties - Acid-base nature of oxides: (from left  right)
Oxides of electropositive (opposite of electronegative) elements are very basic and form alkaline solutions. Na2O(s) + H2O(l)  MgO(s) + H2O(l)  2 NaOH(aq) Mg(OH)2(aq)

13 Chemical properties - Acid-base nature of oxides: (from left  right)
The amphoteric nature of aluminum oxide can be seen from its rxns w/ hydrochloric acid (a strong acid) and sodium hydroxide (a strong base)   Acting as a base: Acting as an acid: Al2O3(aq) + 6HCl(aq)  2AlCl3(aq) + 3H2O(l) Al2O3(aq) + 2NaOH(aq) + 3H2O(l)  2NaAl(OH)3(aq) sodium aluminate

14 Chemical properties - Acid-base nature of oxides: (from left  right)
Silicon dioxide behaves as a weak acid. It does not react with water (that would be weird… SiO2 is sand, so if sand chemically reacted with water then our beaches would be very different places). Imagine beach erosion rates if water chemically reacted with sand!!!

15 Chemical properties - Acid-base nature of oxides: (from left  right)
Silicon dioxide behaves as a weak acid. It does not react with water (that would be weird… SiO2 is sand, so if sand chemically reacted with water then our beaches would be very different places). However, silicon dioxide will form sodium silicate with sodium hydroxide (meaning it reacts with a base). SiO2(s) + 2NaOH(aq)  Na2SiO3(aq) + H2O(l)

16 Chemical properties - Acid-base nature of oxides: (from left  right)
The oxides of phosphorus, sulfur and chlorine are all strongly acidic (all form strong acids when added to water). SO2(s) H2O(l)  P4O10(s) + H2O(l)  Cl2O7(l) H2O(l)  H2SO3(aq) sulfurous acid 6 4 H3PO4(aq) phosphoric acid 2 HClO4(aq) perchloric acid

17 Chemical properties - Acid-base nature of oxides: (from left  right)

18 Chlorides of Period 3 Elements

19 Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C
Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution

20 liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70
Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70 -112 -80 -101 (sublimes) 1413 1412 - 58 76 136 -35

21 liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70
Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70 -112 -80 -101 (sublimes) 1413 1412 - 58 76 136 -35 good poor none

22 simple covalent molecule
Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70 -112 -80 -101 (sublimes) 1413 1412 - 58 76 136 -35 good poor none ionic simple covalent molecule

23 Physical properties - melting points, boiling points & conductivity: (from left  right)
Structure affects physical properties of chlorides in the same way it did for oxides. NaCl and MgCl2 are ionic – conduct electricity in molten state – high melting points

24 Physical properties - melting points, boiling points & conductivity: (from left  right)
AlCl3 is covalent – poor conductor

25 Physical properties - melting points, boiling points & conductivity: (from left  right)
Unlike SiO2, SiCl4 has a simple molecular structure (not a macromolecular network) SiO2 network SiCl4 molecules

26 Physical properties - melting points, boiling points & conductivity: (from left  right)
PCl3, PCl5, S2Cl2, Cl2 – all have simple molecular structures (covalently bonded molecules) held together by weak van der Waals’ forces, resulting in low melting and boiling points. S2Cl2 Cl2 molecules

27 simple covalent molecule
Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70 -112 -80 -101 (sublimes) 1413 1412 - 58 76 136 -35 good poor none ionic simple covalent molecule dissolves easily Fumes of HCl produced Some rxn w/ H2O

28 simple covalent molecule
Formula NaCl MgCl2 Al2Cl6 SiCl4 PCl3 (PCl5) S2Cl2 Cl2 State at 25°C Melting pt. (°C) Boiling pt. (°C) Electrical conductivity in molten state Structure Rxn w/ H2O Nature of solution liquid solid solid solid liquid liquid gas (solid) 178 801 714 -70 -112 -80 -101 (sublimes) 1413 1412 - 58 76 136 -35 good poor none ionic simple covalent molecule dissolves easily Fumes of HCl produced Some rxn w/ H2O weakly acidic neutral acidic

29 Chemical properties - Acid-base nature of chlorides: (from left  right)
NaCl dissolves in H2O to give a neutral solution (more on why when we get to the acid/base unit). MgCl2 gives a slightly acidic solution with water (again, more on this later).

30 Chemical properties - Acid-base nature of chlorides: (from left  right)
All other chlorides including AlCl3 react vigorously with water to produce acidic solutions of hydrochloric acid together with fumes of hydrogen chloride. AlCl3(s) H2O(l)  SiCl4(l) H2O(l)  PCl3(l) H2O(l)  2 3 Al2O3(s) HCl(aq) 6 4 Si(OH)4(aq) HCl(aq) 4 3 H3PO3(aq) HCl(aq) 3

31 Chemical properties - Acid-base nature of chlorides: (from left  right)
Chlorine itself reacts with water to some extent to form acidic solution. Cl2(g) + H2O(l)  HCl(aq) + HClO(aq)

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