SCH4C1 Chemistry Exam Review Exam Breakdown: - Wednesday, January 21, 2015 15% of your final mark 2 hours long (8:30-10:30) Category: Knowledge and Understanding Thinking and Investigation Communication Application Category Weighting: 25% 35% 15% 25% Question Type: Multiple Choice Short Answer Short Answer Short Answer Total Marks Marks: /20 /30 /15 /20 /85 What to bring: - Periodic table, solubility table Nomenclature Summary Calculator Pens and pencils 1 page, 1 side formula sheet o You may use 1 regular sized piece of paper (blank or lined – 8.5” x 11”) o You can ONLY write on ONE SIDE o There are no restrictions to what you may include – write whatever you find helpful ** you will not be given any formulas ON the exam. o Must be your own original work only – no computer scans, photocopies, etc o If it violates any of these rules, you will not be allowed to use it! Topics to Review: - - Energy levels and the Bohr atom Ionic and molecular bonding diagrams Ionic and molecular nomenclature Reaction types and balancing How to use solubility table Precipitate reactions, total and net ionic equations, spectator ions Counting atoms and molecules The mole Molar mass Avogadro’s number Stoichiometry Limiting reagent Concentration Hydrocarbon naming and drawing Hydrocarbon reactions Hydrocarbon derivatives and functional groups Arrhenius theory and modified theory Acids and bases – strong vs weak pH scale pH indicators pH and [H+] calculations Oxidation vs reduction Half reactions Galvanic cells Also Review: - all tests and quizzes (cover up your answers and redo them) Sample Exam Questions: 1. Fill in the blanks. Element Atomic Number # of protons # of electrons Atomic Mass # of neutrons C – 12 C – 14 Na – 23 Sn - 119 2. What is the difference between ionic and molecular compounds in terms of: a. electrical conductivity b. state c. composition d. how to name and write formulas 3. Complete the following chart. Type of Elements Compound Type of Bonding Bonding Diagram Chemical Formula Ca and Cl H and O Mg and P C and O 4. Name the following compounds: a. NaCl ______________________________ b. Mg3(PO4)2 __________________________ f. Hg2SO4 ____________________________ g. CCl4 ______________________________ c. CaF2 ______________________________ h. Fe(OH)2 ___________________________ d. Sr(ClO3)2 ___________________________ i. (NH4)2O ___________________________ e. P2O5 ______________________________ 5. Write the chemical formula for the following compounds: a. Calcium nitrite _______________________ e. Lead (II) nitrate _____________________ b. Iron (III) chloride _____________________ f. Potassium iodide____________________ c. Sulphur trioxide _____________________ g. Chlorine Gas ________________________ d. Gold (I) phosphate ___________________ h. Ammonia __________________________ 6. For each of the examples below indicate the type of reaction and balance the equation. a. _____ Mg(OH)2 → _____ MgO + _____H2O Type of Reaction: ____________________ b. _____ Cl2 + _____NaBr → _____Br2 + _____NaCl Type of Reaction: _____________________ c. _____Al(NO3)3 + ______Li2CO3 →______ Al2(CO3)3 + ______ LiNO3 Type of Reaction: _____________________ d. _____C7H12 + _____O2 → _____CO2 + _____H2O e. _____N2 + _____H2 → _____NH3 Type of Reaction: _____________________ Type of Reaction: _____________________ 7. Explain the differences between acids and bases: Property Acids Bases Ion that is present in solution Reactivity with metals Reactivity with tissue (skin) Electrical conductivity Taste Feel pH range Chemical indicators: Colour with Phenolphthalein Colour with Litmus paper 8. What is a mole? What is an organic compound? How would you describe these concepts to a 10 year old? 9. What is the limiting reagent? How does the limiting reagent affect the reaction? 10. What is the excess reagent? How does the extra excess reagent affect the reaction? 11. What is the percent yield? Is it possible to have a percent yield over 100%? What would this mean? 12. Define an acid and a base according to the Arrhenius theory and the modified Arrhenius theory. 13. Draw the following organic compounds: a. 3-methylbut-2-ene b. hept-3-yne c. propyne d. 4-ethyloctane 14. Predict the organic product of the following reactions: a. But-2-yne + HBr (excess) b. Propane + H2SO4 c. Carboxylic acid + alcohol 15. The structure of citric acid is shown to the right. Identify and name the functional groups. 16. Consider a galvanic cell constructed using the following components: electrodes copper and tin electrolytes copper(II) nitrate and tin(II) chloride. In the ensuing redox reaction, tin gets oxidized to tin 2+ ions and copper 2+ gets reduced to copper atoms. Use this information to write the two half-reactions taking place in the cell. 17. Determine the states (solid or aqueous) of the following compounds: a) AgCl b) CaSO4 c) Na3PO4 d) Mg(OH)2 e) NaNO3 18. Predict the products of the reactions below. Include states. Balance. a) AlBr3(aq) + KOH(aq) b) CuNO3 (aq) + (NH4)3PO4 (aq) c) Li2CO3 (aq) + BaCl2 (aq) 19. Write the total ionic and net ionic equations for the reactions above. Identify the spectator ions. 20. Calculate the pH of the following solutions: a. [H+] = 1 x 10-4 b. [H+] = 3.64 x 10-9 c. A solution that contains a 2.4 x 10-5 M of H3PO4 21. Calculate [H+] a. pH = 2.5 c. pH = 7.0 b. pH = 11.9 22. Convert to Moles: a. 3.01 x 1023 atoms Cl d. 156.3 grams of lead b. 12.04 x 1023 atoms Mg e. 19 000 molecules of KI 23. Convert to Mass in grams a. 5.0 mol Li b. 7.5 mol Co d. 2.67 mol of aluminum oxide c. 48 grams of aluminum f. 56.2 grams of Ca(ClO3)2 c. 0.3 mol of bromine gas e. 7.0 mol NH3 f. 1.8 mol Na2CO3 24. In the following reaction C3H8 + 5 O2 4 H2O + 3 CO2 a) 17 moles of C3H8 makes how many moles of H2O? b) 17 moles of H2O are made, how many moles of C3H8 reacted? c) 3.41 moles of O2 makes how many moles of CO2? d) 15.9 moles of H2O are made, how many moles of O2 reacted? e) 142 moles of CO2 are made, how many moles of H2O are made? f) 1 mole of C3H8 makes how many moles of H2O? 25. Carbon dioxide reacts with lithium hydroxide to produce lithium carbonate and water. What mass of lithium hydroxide do you need to react with 23 g of carbon dioxide? 26. Lithium nitride reacts with water to form ammonia and lithium hydroxide. If 3.92 g of lithium nitride reacts with 4.7 g of water, how many grams of ammonia will be created? (You must find the limiting reagent). 27. Hydrogen peroxide (H2O2) decomposes into hydrogen gas and oxygen gas. If 12.4 g of hydrogen peroxide is reacted, what is the theoretical yield of oxygen? What is the % yield if 4.5 g of oxygen is actually produced? 28. Ammonia is created by reacting nitrogen gas with hydrogen gas. During an experiment, 40 g of nitrogen was reacted with 500 g of hydrogen to produce an actual yield of 0.74 g of ammonia. What is the percentage yield of the reaction? 29. Determine the concentration of the following solutions: a. 2 mol of sodium chloride in 1.5 L of water. b. 15 g of sodium chloride in 0.75 L of water c. 3 g of magnesium fluoride in a 200 mL aqueous solution 30. Determine the number of moles present in the following solutions: a. 2 L of 0.5 mol/L CaCl2(aq) b. 300 mL of 0.4 mol/L Na2(SO4) 31. A stock solution of HCl has a concentration of 12 mol/L. If one were to take 15 mL of stock solution and make a 500 mL solution, what would the concentration of the solution be? 32. A stock solution of H2SO4 has a concentration of 18 mol/L. How many milliliters of stock solution does one need to make 250 mL of a 0.4 mol/L solution? Calculation Solutions: 20a. pH = 4 b. pH = 8.44 c. pH = 4.62 21a. 0.00316 mol/L b. 1.26 x 10-12 mol/L c. 1.0 x 10-7 mol/L 22a. 0.5 mol b. 2 mol c. 1.7791 mol d. 0.7543 mol e. 3.16 x 10-20 f. 0.2715 mol 23a. 34.7g b. 441.98 g c. 47.94 g d. 288.25 g e. 119.28 g f. 107.79 g 24a. 68 mol b. 4.25 mol c. 2.046 mol d. 19.875 mol e. 189.33 mol f. 4 mol 25. 25.04 g 26. 1.482 g 27. 5.83 g, 77% 28. 48.67 g, 1.52 % 29a. 1.33 mol/L b. 0.342 mol/L c. 1576 mol/L 30a. 1 mol b. 0.12 mol 31. 0.36 mol/L 32. 2.56 mL
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