Transcript Slide 1
1 2 GOALS 1. Compare & contrast ionic and covalent bonds in terms of electron position. 2. Predict formulas for stable binary ionic compounds based on balance of charges. 3. Use IUPAC nomenclature for transition between chemical names and chemical formulas of - binary ionic compounds - binary covalent compounds 4. Apply the Law of Conservation of Matter by balancing the following types of chemical equations: • Synthesis • Decomposition 34 16 • Single Replacement • Double Replacement 3 Why do Atoms Form Compounds? • Stability. • What makes an atom stable? • Full outer energy level. • Eight. • Chart page 576. 4 • A Chemical Bond holds atoms together in a compound. • Two basic types: •Ionic •Covalent 5 Ionic Bonding Remember: Atoms need a full outer energy level to be stable. EIGHT! 6 7 8 OPPOSITES ATTRACT! 9 10 Covalent Bonding 11 12 Hydrogen and Fluorine Hydrogen and Chlorine 13 Single, Double, Triple 14 Clip 15 Unequal Sharing δ+ Polar δ_ When one atom has a greater positive charge 16 1. CO2 2. H2O 3. NaCl 4. MgCl2 5. NO2 6. H2SO4 7. NaF clip 9. NaPO4 10.HCl 11.NaF 12.KCl 13.CaCO3 14.N2 15.Cl2 Goals revisited 17 •Writing chemical formulas is a shorthand way of indicating what a substance is made of. •These formulas also let you know how many atoms of each type are found in a molecule. The chemical formula for water is H2O. Carbon Dioxide is CO2. Why does oxygen combine in different ratios, in different compounds? The chemical formula for table salt is NaCl. Calcium Chloride is CaCl2. Why does chlorine combine in different ratios, in different compounds? 18 The simplest compounds are ones with only two elements These are called binary KI, CO, H2O, NaCl +1 +4 -4 Oxidation numbers 0 Tell you how many electrons an atom must gain, lose or share to become stable. +2 19 +3 -3 -2 -1 20 Oxidation numbers +1 -1 Cl We can predict the ratio of atoms in ionic valence compounds based on 1electron K their oxidation numbers All compounds are neutral Tells you how many electrons an atom must gain, lose or share to become stable. KCl 7 valence electron +1 -1 Br Na NaBr 21 +2 Ca -1 Br To make it ZERO, you need CaBr 1 Ca & 22Br. Subscripts show the number of atoms of that kind in the compound Some elements have more than one oxidation number (Chart p588) +3 -2 +2 -2 Fe O Fe O Fe2O3 FeO We call these elements- Multivalent Elements 22 1. 2. 3. 4. 5. 6. 7. Now You Try writing Binary Ionic formulas K + Br 8. Ga + Br Mg + Cl 9. Fe+2 + O Ca + I 10. Fe+3 + O K+O 11. Cu+2 + F K+I 12. Cr+3 + O Sr + Br 13. Mg + O Na + O 14. Al + P 24 Polyatomic Ions Cations: ammonium, NH4+ Anions: nitrate, NO3- Groups of Covalently Bonded atoms that stay together. sulfate, SO42hydroxide, OHphosphate, PO43carbonate, CO32chlorate, ClO3permanganate, MnO4- chromate, CrO42- 25 Try these……. 1.Na + SO4 2.Mg + PO4 3.Ca + CO3 4.Na + OH 5.Mg + OH 6.NH4 + OH 7.K + PO4 8.NH4 + NO3 9.H + SO4 10.Ca + SO4 11.K + NO3 12. Na + PO4 Naming Binary Compounds and 26 Molecules • Steps: Example: • NaCl – If it is Binary1. Decide if it is an ionic or covalent bond. – Metal- nonmetal….. » Ionic – Nonmetal- nonmetal…. » Covalent If ionic ……. 2. Check to see if any elements are multivalent. 3. If all single valent, write the name of the positive ion first. 4. Write the root of the negative ion and add –ide. Examples: 1. NaCl 2.K2O 3.AlCl3 4.BaF2 5.KI 6.Li2O 30 If ionic ……. Examples: 2. Check to see if any elements are multivalent. 1.FeO 3. If multivalent ions, 2.Fe2O3 determine the oxidation 3.CuO number of the element. 4. Use Roman numerals in 4.Cu2O parentheses after the 5.PbCl4 name of the element. 5. Write the root of the 6.PbI2 negative ion and add –ide. 31 If Covalent... 2. Use Greek prefix to Greek Prefixes indicate how many atoms 1- monoof each element are in 2- dithe molecule 3- tri3. Add -ide to the more 4- tetraelectronegative element 5pentaExample: 6- hexa•NO 7- hepta•Nitrogen Monoxide •PCl3 8- octa•Phosphorous trichloride 32 If it contains a polyatomic ion... 2. Write the name Examples: of the positive 1. NaCO3 ion. 2. KNO3 3. Write the name of the polyatomic 3. NaC2H3O2 ion. Example: •KOH •Potassium Hydroxide •CaCO3 •Calcium Carbonate 33 Name the following: 1. KBr 2. HCl 3. MgO 4. CaCl 5. H2O 6. NO2 7. CuSO4 8. CaSO4 9. NH4OH 10.CaCO3 11.Cu(ClO3) 12.Cr2O 3 13.SrI 2 14.CCl4 2 34 Goals revisited 35 Chemical Reactions • A chemical reaction is a change in which one or more substances are converted into new substances. – Rearrangement of bonds in compounds and molecules. • Chemical Equations make it possible to see clearly what is happen during a chemical reaction 36 Chemical equations are a shorthand way to show chemical reactions. Reactants Products H2 + O2 H2O 37 Conservation of Mass 38 H2 + O2 H2O Does this meet the Conservation of Mass Law? 2 Hydrogen 2 Oxygen atoms atoms 2 Hydrogen atoms & one Oxygen atom Must Balance the Equation to show Conservation of Mass. 39 Can add coefficients to Balance equations. 2 H2 + O2 42 Steps: 2 H2O 2 Balanced!! 1. Count Atoms on both sides 2. If not Balanced, add coefficients to balance. 3. Recount atoms after adding each coefficient. 4. Keep adding coefficients until balanced. 42 21 40 41 1.Synthesis 2.Decomposition 3.Single Replacement (Single Displacement) 4.Double Replacement (Double Displacement) Synthesis “to make” A + B Cu + O 2H + O2 2 AB CuO 2H O 2 Decomposition “to breakdown” AB A + B 2H O 2 2H + O NaOH Na+ OH 2 2 Single Replacement When one element replaces another element in a compound A + BC Cu+AgNO3 AC + B Cu(NO3)2+ 2Ag The more reactive metal will always replace the less reactive metal. (p749) Single Replacement • Clip Double Replacement Positive Ion of One compound replaces the positive ion of another compound and a Precipitate is formed. AB + CD Ba(NO3)2+K2SO4 AD + CB BaSO4 2KNO3 Clip Clip 51 Chemical Reactions and Energy • All chemical reactions release or absorb energy. – Heat, light, sound • Chemical reactions are the making and breaking or bonds. 1. Exergonic • Chemical reactions that releases energy are called exergonic. – Glow sticks • If heat is released, it is called exothermic. 2. Endergonic • Chemical reactions that require energy are called endergonic. • Ex: Cold Packs • If heat is absorbed, it is called endothermic Catalysts and Inhibitors Some reactions proceed slowly. • They can be sped up by a catalysts. – Catalysts are not used up in the reaction. – EX: enzymes (biological catalysts) Some reactions proceed too fast. • They can be slowed down by inhibitors. – EX: Preservatives in food GOALS Revisited….. 1. Compare & contrast ionic and covalent bonds in terms of electron position. 2. Predict formulas for stable binary ionic compounds based on balance of charges. 3. Use IUPAC nomenclature for transition between chemical names and chemical formulas of • binary ionic compounds • binary covalent compounds 4. Apply the Law of Conservation of Matter by balancing the following types of chemical equations: • Synthesis • Decomposition • Single Replacement • Double Replacement