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Draw Lewis Structures for the following compounds. Give the shape, polarity, and bond angle for each compound.Draw Lewis Structures for the following.

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Presentation on theme: "Draw Lewis Structures for the following compounds. Give the shape, polarity, and bond angle for each compound.Draw Lewis Structures for the following."— Presentation transcript:

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2 Draw Lewis Structures for the following compounds. Give the shape, polarity, and bond angle for each compound.Draw Lewis Structures for the following compounds. Give the shape, polarity, and bond angle for each compound. CH 3 OHCH 3 OH NH 3NH 3 N 2 H 2N 2 H 2

3 Chapters 7 and 8 Review

4 Chemical Bonds electrical attraction between nuclei and valence e - of neighboring atoms that binds the atoms togetherelectrical attraction between nuclei and valence e - of neighboring atoms that binds the atoms together bonds form in order to…bonds form in order to… –decrease potential energy –increase stability Three types:Three types: –Ionic –Covalent –metallic

5 Ionic Bonds  Electrons are transferred  Electronegativity differences are generally greater than 1.7  The formation of ionic bonds is always exothermic!

6 Sodium Chloride Crystal Lattice – Ionic compounds form solids at ordinary temperatures. High mp and bp. – Good conductors of heat and electricity – Ionic compounds organize in a characteristic crystal lattice of alternating positive and negative ions. – generally soluble as a liquid

7 True Molecules –Non-metals – share electrons –Liquids or gases at room temp (low mp and bp) –Poor conductors of heat and electricity –Low solubility Covalent Bonds Diatomic Molecule

8 Metal elements sharing a “Electron Sea” – good conductors of electricity – malleable, ductile, lustrous Metallic Bonds

9 2 1 3567 8 4 Valence electrons - electrons in the outer energy level. These electrons determine the formation of chemical bonds.

10 ElectronegativityElectronegativity –a measure of an atom’s ability to attract electrons. –higher e - neg atom   - –lower e - neg atom   +

11 Electronegativity Trend Increases up and to the right.Increases up and to the right.

12 Bond Polarity Most bonds are a blend of ionic and covalent characteristicsMost bonds are a blend of ionic and covalent characteristics

13 Nonpolar Covalent BondNonpolar Covalent Bond –e - are shared equally –symmetrical e - density –usually identical atoms

14 ++ -- Polar Covalent BondPolar Covalent Bond –e - are shared unequally –asymmetrical e - density –results in partial charges (dipole)

15 Covalent Compounds Molecules are neutral groups of atoms that are held together by covalent bonds.Molecules are neutral groups of atoms that are held together by covalent bonds. Diatomic molecules – H 2, N 2, O 2, F 2, Cl 2, Br 2, and I 2. Allotrophs include P 4 and S 8.Diatomic molecules – H 2, N 2, O 2, F 2, Cl 2, Br 2, and I 2. Allotrophs include P 4 and S 8.

16 Covalent or Molecular Compounds -Compounds between two nonmetals-Compounds between two nonmetals -Use prefixes-Use prefixes -Only use mono on second element --Only use mono on second element - P 2 O 5 = CO 2 = CO = N 2 O = diphosphorus pentoxide carbon dioxide carbon monoxide dinitrogen monoxide

17 Octet Rule Remember…Remember… –Most atoms form bonds in order to have 8 valence electrons.

18 Drawing Lewis Diagrams Find total # of valence e -.Find total # of valence e -. Arrange atoms - singular atom is usually in the middle.Arrange atoms - singular atom is usually in the middle. Form bonds between atoms (2 e - ).Form bonds between atoms (2 e - ). Distribute remaining e - to give each atom an octet (recall exceptions).Distribute remaining e - to give each atom an octet (recall exceptions). If there aren’t enough e - to go around, form double or triple bonds.If there aren’t enough e - to go around, form double or triple bonds.

19 –Hydrogen  2 valence e - –Groups 1,2,3 get 2,4,6 valence e - –Expanded octet  more than 8 valence e - (e.g. S, P, Xe) –Radicals  odd # of valence e - Exceptions:Exceptions: Octet Rule F B F F H O HN O Very unstable!! F F S F F

20 Drawing Lewis Diagrams CF 4CF 4 1 C × 4e - = 4e - 4 F × 7e - = 28e - 32e - 32e - F F C F F - 8e - - 8e - 24e - 24e -

21 Drawing Lewis Diagrams CO 2CO 2 1 C × 4e - = 4e - 2 O × 6e - = 12e - 16e - 16e - O C O - 4e - - 4e - 12e - 12e -

22 Polyatomic Ions To find total # of valence e - :To find total # of valence e - : –Add 1e - for each negative charge. –Subtract 1e - for each positive charge. Place brackets around the ion and label the charge.Place brackets around the ion and label the charge.

23 NH 4 +NH 4 + 1 N × 5e - = 5e - 4 H × 1e - = 4e - 9e - 9e - H H N H H - 1e - - 1e - 8e - 8e - - 8e - - 8e - 0e - 0e - C. Polyatomic Ions

24 Resonance Structures Molecules that can’t be correctly represented by a single Lewis diagram.Molecules that can’t be correctly represented by a single Lewis diagram. Actual structure is an average of all the possibilities.Actual structure is an average of all the possibilities. Show possible structures separated by a double-headed arrow.Show possible structures separated by a double-headed arrow.

25 VSEPR Geometry Zumdahl, Zumdahl, DeCoste, World of Chemistry  2002, page 389

26 Nitrogentri-iodideCovalent NI 3 Lead(II) fluoride Ionic PbF 2 Carbon tetrachloride Covalent CCl 4 StructureName Bond Type Formula N I I I Pb +2 F-F- F-F- C Cl

27 Ionic Bonding: Force of attraction between oppositely charged ions. Ions Cation: A positive ionCation: A positive ion Mg 2+, NH 4 +Mg 2+, NH 4 + Anion: A negative ionAnion: A negative ion Cl , SO 4 2 Cl , SO 4 2 

28 +2 +1 +3-3-2

29 Writing Ionic Compound Formulas Example: Barium nitrate 1. Write the formulas for the cation and anion, including CHARGES! Ba 2+ NO 3 - 2. Check to see if charges are balanced. 3. Balance charges, if necessary, using subscripts. Use parentheses if you need more than one of a polyatomic ion. Not balanced! ( ) 2

30 Writing Ionic Compound Formulas Example: Ammonium sulfate 1. Write the formulas for the cation and anion, including CHARGES! NH 4 + SO 4 2- 2. Check to see if charges are balanced. 3. Balance charges, if necessary, using subscripts. Use parentheses if you need more than one of a polyatomic ion. Not balanced! ( ) 2

31 Writing Ionic Compound Formulas Example: Iron(III) chloride 1. Write the formulas for the cation and anion, including CHARGES! Fe 3+ Cl - 2. Check to see if charges are balanced. 3. Balance charges, if necessary, using subscripts. Use parentheses if you need more than one of a polyatomic ion. Not balanced! 3

32 Writing Ionic Compound Formulas Example: Aluminum sulfide 1. Write the formulas for the cation and anion, including CHARGES! Al 3+ S 2- 2. Check to see if charges are balanced. 3. Balance charges, if necessary, using subscripts. Use parentheses if you need more than one of a polyatomic ion. Not balanced! 23

33 Writing Ionic Compound Formulas Example: Magnesium carbonate 1. Write the formulas for the cation and anion, including CHARGES! Mg 2+ CO 3 2- 2. Check to see if charges are balanced. They are balanced!

34 Writing Ionic Compound Formulas Example: Zinc hydroxide 1. Write the formulas for the cation and anion, including CHARGES! Zn 2+ OH - 2. Check to see if charges are balanced. 3. Balance charges, if necessary, using subscripts. Use parentheses if you need more than one of a polyatomic ion. Not balanced! ( ) 2

35 Writing Ionic Compound Formulas Example: Aluminum phosphate 1. Write the formulas for the cation and anion, including CHARGES! Al 3+ PO 4 3- 2. Check to see if charges are balanced. They ARE balanced!

36 Naming Ionic Compounds 1. Cation first, then anion1. Cation first, then anion 2. Monatomic cation = name of the element2. Monatomic cation = name of the element Ca 2+ = calcium ionCa 2+ = calcium ion 3. Monatomic anion = root + -ide3. Monatomic anion = root + -ide Cl  = chlorideCl  = chloride CaCl 2 = calcium chlorideCaCl 2 = calcium chloride

37 Naming Ionic Compounds (continued) - some metal forms more than one cation- some metal forms more than one cation -use Roman numeral in name-use Roman numeral in name PbCl 2PbCl 2 Pb 2+ is cationPb 2+ is cation PbCl 2 = lead(II) chloridePbCl 2 = lead(II) chloride Metals with multiple oxidation states

38 Calculating Formula Mass Calculate the formula mass of magnesium carbonate, MgCO 3. 24.31 g + 12.01 g + 3(16.00 g) = 84.32 g

39 Calculating Percentage Composition Calculate the percentage composition of magnesium carbonate, MgCO 3. From previous slide: 24.31 g + 12.01 g + 3(16.00 g) = 84.32 g 100.00

40 CHEMICAL FORMULA Molecular Formula Unit IONICCOVALENT CO 2 NaCl

41 COMPOUND Ternary Compound Binary Compound 2 elements more than 2 elements NaNO 3 NaCl

42 ION Polyatomic Ion Monatomic Ion 1 atom 2 or more atoms NO 3 - Na +

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45 Formulas  molecular formula = (empirical formula) n [n = integer]  molecular formula = C 6 H 6 = (CH) 6  empirical formula = CH Empirical formula: the lowest whole number ratio of atoms in a compound. Molecular formula: the true number of atoms of each element in the formula of a compound.

46 Formulas (continued) Formulas for ionic compounds are ALWAYS empirical (lowest whole number ratio). Examples: NaClMgCl 2 Al 2 (SO 4 ) 3 K 2 CO 3

47 Formulas (continued) Formulas for molecular compounds MIGHT be empirical (lowest whole number ratio). Molecular: H2OH2O C 6 H 12 O 6 C 12 H 22 O 11 Empirical: H2OH2O CH 2 O C 12 H 22 O 11

48 Empirical Formula Determination 1.Base calculation on 100 grams of compound. 2.Determine moles of each element in 100 grams of compound. 3.Divide each value of moles by the smallest of the values. 4.Multiply each number by an integer to obtain all whole numbers.

49 Empirical Formula Determination Adipic acid contains 49.32% C, 43.84% O, and 6.85% H by mass. What is the empirical formula of adipic acid?

50 Empirical Formula Determination (part 2) Divide each value of moles by the smallest of the values. Carbon: Hydrogen: Oxygen:

51 Empirical Formula Determination (part 3) Multiply each number by an integer to obtain all whole numbers. Carbon: 1.50 Hydrogen: 2.50 Oxygen: 1.00 x 2 352 Empirical formula: C3H5O2C3H5O2

52 Finding the Molecular Formula The empirical formula for adipic acid is C 3 H 5 O 2. The molecular mass of adipic acid is 146 g/mol. What is the molecular formula of adipic acid? 1. Find the formula mass of C 3 H 5 O 2 3(12.01 g) + 5(1.01) + 2(16.00) = 73.08 g

53 Finding the Molecular Formula The empirical formula for adipic acid is C 3 H 5 O 2. The molecular mass of adipic acid is 146 g/mol. What is the molecular formula of adipic acid? 3(12.01 g) + 5(1.01) + 2(16.00) = 73.08 g 2. Divide the molecular mass by the mass given by the emipirical formula.

54 Finding the Molecular Formula The empirical formula for adipic acid is C 3 H 5 O 2. The molecular mass of adipic acid is 146 g/mol. What is the molecular formula of adipic acid? 3(12.01 g) + 5(1.01) + 2(16.00) = 73.08 g 3. Multiply the empirical formula by this number to get the molecular formula. (C 3 H 5 O 2 ) x 2 = C 6 H 10 O 4

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