Hydrogen Bonding O O Intermolecular forces of attraction between

Hydrogen Bonding O O Intermolecular forces of attraction between
molecules (hydrogen bonds) Bonds exist within (covalent bonds) Intermolecular forces O H Bonds O H Bonds Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 442

Interaction of Dipoles
(a) Interaction of two polar molecules. (b) interaction of many dipoles in a liquid - + - + + - Attraction Repulsion Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 442

Polar Water Molecule d + O 2d - d + H H
Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 443

Hydrogen Bonding among water Molecules

Boiling Points of Covalent Hydrides
3 He 2 C 6 N 7 O 8 F 9 Ne 10 Na 11 B 5 Be 4 H 1 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 Fr 87 Ra 88 Rf 104 Db 105 Sg 106 Bh 107 Hs 108 Mt 109 Mg 12 * Boiling Points of Covalent Hydrides H2O 100 Hydrogen Bonding H2Te Boiling point (oC) H2Se H2S -100 -200 2 3 4 5 Period of X (H2X) Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 443

H2O 100 H2Te Boiling point (oC) H2Se SnH4 H2S -100 GeH4 SiH4 CH4 -200 50 100 150 Molecular mass

Heating / Cooling Curve of Water

Water Molecules in Liquid and Steam

Microscopic view of a liquid near its surface

Behavior of a liquid in a closed container

Water rapidly boiling on a stove

Formation of a bubble is opposed by the pressure of the atmosphere

H2O 100 H2Te Boiling point (oC) H2Se H2S -100 -200 2 3 4 5 Period of X (H2X) Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 443

3 He 2 C 6 N 7 O 8 F 9 Ne 10 Na 11 B 5 Be 4 H 1 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 Fr 87 Ra 88 Rf 104 Db 105 Sg 106 Bh 107 Hs 108 Mt 109 Mg 12 * Boiling Points of Covalent Hydrides H2O 100 H2Te Boiling point (oC) H2Se H2S -100 -200 2 3 4 5 Period of X (H2X) Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 443

3 He 2 C 6 N 7 O 8 F 9 Ne 10 Na 11 B 5 Be 4 H 1 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 Fr 87 Ra 88 Rf 104 Db 105 Sg 106 Bh 107 Hs 108 Mt 109 Mg 12 * Boiling Points of Covalent Hydrides H2O 100 Hydrogen Bonding H2Te Boiling point (oC) H2Se H2S -100 -200 2 3 4 5 Period of X (H2X) Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 443

H2O 100 H2Te Boiling point (oC) H2Se SnH4 H2S Group 16 Hydrogen Compounds Compound Molar Mass Melting Point Boiling Point H fusion H vapor (oC) (oC) (cal/mol) (cal/mol) H2O H2S H2Se H2Te -100 GeH4 SiH4 CH4 -200 50 100 150 Molecular mass

Group16 Hydrogen Compounds
Molar Mass Melting Point (oC) Boiling Point (oC) H fusion (cal/mol) H vapor H2O 18 0.0 100.0 1440 9720 H2S 34 -85.5 -60.7 568 4450 H2Se 81 -60.4 -41.5 899 4620 H2Te 130 -48.9 -2.2 1670 5570 Group 16 Hydrogen Compounds Compound Molar Mass Melting Point Boiling Point H fusion H vapor (oC) (oC) (cal/mol) (cal/mol) H2O H2S H2Se H2Te

Ethanol is Polar d - O d + Polar bond C C H H H H H H

Ethanol and Water are Soluble
C ‘Like dissolves like’ Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 469

Molecular Structure of Ice
Hydrogen bonding Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 455

Sodium Chloride Crystal
Formula Unit – simplest ratio of atoms in a compound. Solid crystals for a lattice structure (repeating pattern) arrangement of atoms. A single grain of table salt (NaCl) is composed of billions of atoms of sodium and chlorine in a fixed ratio 1:1 = Cl- = Na+ Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 455

Packing of NaCl Ions = Cl1- = Na1+

Packing of NaCl Ions Electron Microscope Photograph of NaCl

Dissolving of Salt in Water
Na+ ions Water molecules Cl- ions When sodium chloride crystals are dissolved in water, the polar water molecules exert attracting forces which weaken the ionic bonds. The process of solution occurs the ions of sodium and chloride become hydrated. NaCl(s) + H2O  Na+(aq) + Cl-(aq)

Dissolving of NaCl - - - O + + + + Cl- Na+ hydrated ions H
Timberlake, Chemistry 7th Edition, page 287

An alloy is a homogeneous mixture of metals.
Brass = Copper + Zinc Solid brass homogeneous mixture Solid Brass Consumer Tip Pay attention to labels when purchasing brass. Brass is sold with the label ‘Brass’ or ‘Solid Brass’. ‘Brass’ means brass coated – the object is not ‘solid brass’. It is likely inexpensive, cheap zinc in the center and has only a thin coating of brass on the outside. Toilet bowl seat screws are often sold as ‘brass’ ($1.29) or ‘solid brass’ ($1.99). Pay more, the ‘brass’ screw may snap off as zinc is a brittle metal under stress. ‘Solid brass’ is stronger and the better value. Copper Zinc

Brass Plated Brass = Copper + Zinc Brass plated heterogeneous mixture
Only brass on outside Brass Plated Copper Zinc

Hardened Steel Steel Iron Carbon
Carbon is added to steel to make it harder. The addition of too much carbon makes steel very strong, but brittle. A bridge made this way would not sag when stressed, but would snap when too much pressure was applied. Engineers figure the optimal amount of carbon to add to make steel strong, but not too brittle. Look for link: Steel Steel Iron Carbon

Gold 24 karat gold 18 karat gold 14 karat gold 24/24 atoms Au
Copper Silver 24 karat gold karat gold karat gold Pure gold (24 karat) is too soft (malleable) for use in jewelry. An alloy is made with copper or silver to make the gold harder and more durable. 14 karat gold means if you take 24 atoms out of the sample 14 will be gold atoms and the remaining 10 atoms another metal. Many years ago, coins were made from pure silver and pure gold. Dishonest people would shave off the edges of the coins to steal a small amount of silver or gold. Ridges were added to coins to stop people from shaving the coins. Emphasize that alloys are solutions or mixtures of metals. An alloy’s characteristics differ from those of the metals that compose it. How are the silver atoms arranged in the14-karat gold? (They are evenly dispersed among the gold atoms.) If you were to melt the ring, how would the silver atoms be arranged in the solution? (They would be evenly dispersed.) Can an alloy be composed of more than two different metals? (yes) 24/24 atoms Au 18/24 atoms Au 14/24 atoms Au

AgNO3(aq) + KCl(aq)  KNO3 (aq) + AgCl(s)
? Precipitation Reaction Between AgNO3 and KCl K+ NO3- AgCl AgNO3(aq) + KCl(aq) unknown white solid Ag+ + NO K+ + Cl- in silver nitrate solution in potassium chloride unknown white solid Ag+ Cl- Ag+ + NO K+ + Cl- Ag+ + Cl K+ + NO3- product AgCl precipitate AgNO3(aq) + KCl(aq) AgCl(s) KNO3(aq) AgNO3(aq) + KCl(aq)  KNO3 (aq) + AgCl(s)

Formation of a solid AgCl
AgNO3(aq) + KCl(aq)  KNO3 (aq) + AgCl(s) Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 220

Hydrogen Bonding O O Intermolecular forces of attraction between

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