Ch 8 Notes: Chemical Equations and Reactions

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Name: Ch 8 Notes: Chemical Equations and Reactions I. Chemical Equations A properly written chemical equation can summarize any chemical change. The following requirements will help you write and read a chemical equation: The equation must represent facts. (Chemical analysis in a laboratory must have been done.) The equation must contain the correct formulas for the reactants (on the left of the arrow) and the products (on the right of the arrow). The law of conservation of mass and energy must be satisfied. (Atoms and energy is neither created nor destroyed in an ordinary chemical reaction.) Therefore the same number of atoms of each element must appear on each side of a correct chemical equation. To equalize the number of atoms, a coefficient is placed in front of a formula to specify the relative number of each compound (or moles of each compound) needed for this reaction. This is called balancing the equation. Symbols, Hydrocarbons, and Diatomic Molecules Used in Writing and Balancing Equations Symbol Explanation of symbol + separates 2 or more reactants or products yield, separates reactants from products. Does not mean equal to used in place of to indicate a reversible reaction (s) designates a reactant or product in the solid state. Placed after the formula of a substance (l) indicates a liquid reactant or product (aq) indicates an aqueous solution (where some solute has been dissolved in water) (g) indicates a gaseous reactant or product or indicates that heat is supplied to the reaction A formula written above or below the sign indicates that it is used as a catalyst (something that speeds up the reaction) Diatomic and Polyatomic Molecules: (HOFBrINCl) Element Symbol Molecular Formula used in Equations Hydrogen H H 2 Oxygen O O 2 Fluorine F F 2 Bromine Br Br 2 Iodine I I 2 Nitrogen N N 2 Chlorine Cl Cl 2 Sulfur S S 8 Phosphorus P P 4 II. Writing and Balancing Equations Example - Write a balanced equation for the following reaction: Propane + oxygen carbon dioxide + water 1 st : Write the equation using correct symbols. A. Propane is a hydrocarbon (a combination of hydrogen and carbon), propane is C 3 H 8 B. Oxygen is a diatomic molecule in nature oxygen exists as O 2. In an equation, if the word oxygen, hydrogen, nitrogen, fluorine, chlorine, bromine, iodine, sulfur, or phosphorus is used you must write it as being diatomic (or polyatomic). C. Carbon dioxide binary molecular compound CO 2. D. Water common name for dihydrogen monoxide H 2 O. C 3 H 8 + O 2 CO 2 + H 2 O 2 nd : Now we must balance the equation first write an atom inventory for the total number of atoms of each element on each side of the equation.

Atom Inventory or Counting Atoms you must be able to count atoms in order to balance an equation. There are two ways to designate numbers in a formula: A. subscripts small numbers within a formula of a compound. Tells the number of atoms in that compound l. MgCl 2 1 atom of Mg and 2 atoms of chlorine 2 Sn 3 N 2 3 atoms of tin and 2 atoms of nitrogen B. Coefficient the large number in front of the formula of a compound. Tells the number of molecules (in a molecular compound) or formula units (in an ionic compound) or atoms of an element. 1. 3 Na 3 PO 4 3 formula units of sodium phosphate (ionic) 2. 2 CaCl 2 2 formula units of calcium chloride (ionic) 3. 5 H 2 0 5 molecules of water (molecular) 4. 6 PI 3 6 molecules of phosphorus triodide (molecular) 5. 4 Na 4 atoms of sodium (element) Remember that atoms cannot be created or destroyed; we must balance an equation using coefficients. Never change a subscript to balance an equation!! _1_C 3 H 8 (g) + _5_O 2 _3_CO 2 + _4_H 2 O Reactants Products # C 3 # C 3 # H 8 # H 8 # O 10 # O 10 This now tells us the correct chemical equation and exactly how much of each reactant was needed and how much of each product was produced!!!! Practice balancing the following equations: 1. H 2 O H 2 + O 2 2. Pb(NO 3 ) 2 + Na NaNO 3 + Pb 3. C 4 H 10 + O 2 CO 2 + H 2 O 4. PbCl 2 (aq) + Na 2 CrO 4 (aq) PbCrO 4 (s) + NaCl (aq) 5. Al 2 (SO 4 ) 3 (aq) + Ca(OH) 2 (aq) Al(OH) 3 (s) + CaSO 4 (s) III. Energy in chemical reactions: Some reactions require more energy than is produced; others produce more energy then is required. A Heat energy Exothermic Reactions when energy is released during a reaction it is called an exothermic reaction. When atoms combine to form a compound, energy is released, therefore, it is exothermic; energy is a product and is written on the right side of the arrow: 2H 2 + O 2 2H 2 O + energy Endothermic Reactions when energy is absorbed or taken in during a chemical reaction. Energy is required when a compound is decomposed or breaks down; energy is a reactant and is written on the left of the arrow: 2H 2 O + energy 2H 2 + O 2 B. Law of Conservation of Energy the second law of thermodynamics states that energy is neither created nor destroyed. The form of energy may change, but the TOTAL amount of energy stays constant. It is because of this law that we must balance equations.

IV. Types of Chemical Reactions: there are 5 main types listed below and the general formulas for each are given A. Combination or Synthesis: where 2 or more simple substances (elements or compounds) combine to form ONE complex substance Ex: 8Fe + S 8 8FeS 2Sr + O 2 2SrO Mg + Br 2 MgBr 2 Practice: 6. Li + P 4 7. N 2 + Al 8. Cl 2 + Ca 9. Na + N 2 B. Decomposition: a complex substance (compound) decomposes into 2 or more simple substances. Heat or electricity is usually required. Ex: 2NaCl 2 Na + Cl 2 8MgS 8Mg + S 8 Practice 10. CuO 11. KCl 12. AlF 3 13. HI 14. Na 2 O C. Combustion Reactions where oxygen reacts with another substance, usually a hydrocarbon, resulting in the release of energy, usually heat or light. A hydrocarbon is a compound containing carbon and hydrogen, although we will work combustion reactions with compounds containing hydrogen, carbon and oxygen sometimes. There are 2 types of combustion reactions: l. Incomplete instead of CO 2 being produced, the products may be CO, CO 2 and/or C. Water is also a product 2. Complete carbon dioxide and water are the only products CH 4 + 20 2 CO 2 + 2H 2 0 Hint: Balancing combustion reactions: balance the carbons first, balance the hydrogens next, balance the oxygens last. Common Hydrocarbons: Molecular Formula Name State at room temperature CH 4 methane gas C 2 H 6 ethane gas C 3 H 8 propane gas C 4 H 10 butane gas C 5 H 12 pentane liquid C 8 H 18 octane liquid C 10 H 22 decane liquid C 17 H 36 heptadecane solid C 20 H 42 eicosane solid

Examples of Combustion Reactions: 15. C 3 H 8 + O 2 16. C 2 H 2 + 5O 2 17. Ca + O 2 D. Single-Replacement occurs when one element displaces another element in a compound. You must check the Activity Series of Metals (see below) to see if the lone element is active or strong enough to displace the element in the compound Activity Series of Metals Li K Ba Ca Na Mg Decreasing strength Al Zn Fe Ni Sn Pb (H) Cu Hg Ag Au Practice: 18. Li + KCl 19. Sn + ZnCl 2 20. Sn + HCl 21. Ni + HOH Certain nonmetals, the halogens, also behave like this. The order of strength of the halogens is Practice: 22. Cl 2 + NaBr 23. I 2 + KBr 24. F 2 + MgBr 2 25. Br 2 + CaCl 2 F 2 Cl 2 Br 2 I 2 Decreasing strength

E. Double-Replacement reactions occur when the cations (positive ions) switch places. You do NOT need the activity series of metals list in these reactions. When you switch places, be sure to correctly write the formula of the new compound!!!!! Ex: 2 NaCl + Mg0 MgCl 2 + Na 2 0 2 KMn0 4 + Na 2 C 2 0 4 2 NaMn0 4 + K 2 C 2 0 4 Practice; (be sure to balance the equations too) 26. NaBr + AgNO 3 27. CuS0 4 + Al(OH) 3 28. Ca 3 (P0 4 ) 2 + ZnCr0 4 Rules for Predicting Double Replacement Reactions: 1. Predict the products of the double-replacement reaction and indicate the solubility of both of the products by placing the symbol "(aq)" after the soluble product and the symbol "(s)" after the insoluble product. Use the Solubility Rules handout (at end of notes) to determine the solubility. If the compound is soluble that means that it will remain as ions in the solution, if it is insoluble then the compound precipitated out of the reaction (it became the precipitate or solid). 2. If at least one INSOLUBLE product is formed (which means a precipitate will form) the reaction will occur! 3. If only SOUBLE products are formed then the reaction will NOT occur (because no precipitate is formed)! **Only exception is when the reaction occurs and a gas is produced and not a ppt, but you will learn about those in AP!!!!** 4. If water is produced the reaction will occur! 5. If the reaction occurs and one of the compounds formed is soluble then that compound is written as ions and not as a compound. ex. BaCO 3 + CuSO 4 BaSO 4 (s) + CuCO 3 (s) ex. K 3 PO 4 + NaOH no reaction occurred (no ppt) F. Net Ionic Equations shows only the compounds and ions that undergo a chemical change in a double replacement reaction Example: Na 2 S + Cd(NO 3 ) 2 Na + + NO 3 + CdS(s) Step 1: Convert the chemical equation to an overall ionic equation. All reactants are shown as ions. For the products, all soluble ionic compounds are shown as dissociated ions and the precipitates are shown as solids. Na + + S 2 + Cd 2+ + NO 3 Na + + NO 3 + CdS(s) Step 2: All spectator ions (ions that do not take part in a chemical reaction and are found as ions both before and after the reaction) are removed from the equation. S 2 + Cd 2+ CdS(s) Examples of Double Replacement Reactions and Net Ionic Equations: (Write the chemical equation for each as well as the net ionic equation.) 29. CuCO 3 + NaCl 30. Na 2 S + Cd(NO 3 ) 2 31. Ba(NO 3 ) 2 + NaCl

Summary of Types of Reactions 1. combination (or synthesis) reaction A + B AB 2. decomposition AB A + B 3. single replacement A + BC AC + B 4. double replacement AB + CD AD + CB the positive ion is always written first. 5. combustion C x H y + O 2 CO 2 + H 2 O here oxygen is always a reactant and carbon dioxide and water are always products in a COMPLETE combustion reaction. Practice Predicting Products If you know the 5 basic types of reactions, predicting the products of chemical reactions is not difficult. The first thing you need to do is to look at the reactants and determine what type of reaction will probably occur. Always keep in mind the general formulas of the 5 types of reactions. 32. AlCl 3 33. C 2 H 4 + 0 2 34. Zn + AgNO 3 35. H 2 0 36. Al + P 37. NaI + MgS 38. Cl 2 + NaBr 39. C 6 H 12 0 6 + O 2 40. AlCl 3 + Na 2 CO 3 41. Ni + MgSO4 42. Cl 2 + K 43. C 5 H 12 + 0 2

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