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Acids/Bases Notes One Unit Eleven. Pages 541-549. Properties of Acids Properties of Bases Structure of Bases Neutralization Reactions Lab Acid/Base Properties Next Class. Part I Effect of acids and base on indicators.
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Acids/Bases Notes One Unit Eleven Pages 541-549 Properties of Acids Properties of Bases Structure of Bases Neutralization Reactions Lab Acid/Base Properties Next Class
Part I Effect of acids and base on indicators • 1. Stand 3 clean, dry test tubes in the test tube rack. Add about 2 mL of 6M HCl to one of the test tubes, 2 mL of 6M HC2H3O2 to a second tube, and 2 mL of 0.5 M NaOH to the third tube. CAUTION: Handle these chemicals with care. Test each solution first with red litmus paper and then with blue litmus paper. • 2. Test each solution with pH paper. • 3. Add 1 drop of phenolphthalein to each solution. Discard the solutions as instructed. Clean and rinse the test tubes.
Part IV Neutralization • 1. Using a clean dropper pipette, add 10 drops of 1.0M HCl and 1 drop of phenolphthalein to a test tube. Test with pH paper. • 2. Using a second dropper pipette, add 0.5M NaOH drop-by-drop. After the addition of each drop, swirl the test tube gently mix the contents. Count the total number of drops of NaOH needed to cause a color change. Once a color change is observed, test the mixture with pH paper. Number of drops of 0.5M NaOH to neutralize 10 drops of 1.0M HCl _________. pH of neutral solution:_________
5. What type of reaction occurs between a metal and an acid? Write a general equation for this type of reaction. • Single • M+ A------->H2+ salt • 6. Explain the difference in reaction rates of a given metal with two different acids. • HCl is a strong acid. It makes more H3O+1. More H3O+1 means faster reaction. • 7. Write a balanced equation for the reaction between CO2 gas and lime water, Ca(OH)2. What is the name of the milky precipitate that forms? • Ca(OH) 2 + CO2 ------>CaCO3+ H2O • 8. Explain the difference in the volumes (number of drops) of HCl and NaOH required to produce a neutral solution in Part 4 of this experiment. • 10 drops to 20 drops means the base is half the concentration.
Notes One Unit Eleven Properties of Acids Properties of Bases Structure of Bases Neutralization Reactions
Properties of Acids Sour taste. warhead React with “active” metals produce H2.Al, Zn, and Fe React with carbonates, producing CO2 and H2O. Marble, baking soda, chalk, limestone. Change color of vegetable dyes. cabbage juice / On the top cabbage juice / baking soda (left) cabbage juice / vinegar (right).
Acids acid - proton donor (H+1) strong vs. weak acids strong - lots of (H+ ) weak - very little (H+ )
HCl is a strong acid Muriatic acid is hydrochloric acid. Making Bleach. Making PVC pipe. Making Table Salt. Humanstomach acid. Cleaning steel. Neutralize bases in chemical plants. Chrome tanning leather.
HNO3 is a strong acid Explosives Fertilizers etc. Nitrate salts To make H2SO4 Etching copper, brass, bronze Dyes, perfumes Purification of Ag, Au, Pt
Properties of Bases Also known as alkali.( Li, Na, K, Rb, Cs, Fr) Taste bitter. caffeine often poisonous. Solutions feel slippery. Change color of vegetable dyes. Different color than acid. Red litmus turns blue. React with acids to form salt and water(Neutralization). Acid + base salt +water
Common Base Features Most ionic bases contain OH-1 ions. NaOH (drain cleaner) Some contain CO32-ions. CaCO3(in Tums) NaHCO3 (baking soda) Molecular bases contain structures that react with H+. Mostly amine groups(-NH2).
Neutralization Reactions acid + base salt + water Double-displacement CO2 and H2O Some make
Acid Reactions Acid+carbonate Salt +Water +Carbon Dioxide Acid+Base Salt +Water Acid+Metal Salt +Hydrogen
Acid and Carbonate Carbonate Water+ Carbon Dioxide Acid+ Salt+ 2 HNO3+ 1 Na2CO3 2 1 H2O + 1 CO2 NaNO3 + H+1 NO3-1 Na+1 CO3-2 Salt ? =Sodium Nitrate ( )_( )_ 1 1 Na+1 NO3-1 NaNO3
Acid and Base Base Water Acid+ Salt + 1 H2SO4+ 2 KOH 1 2 H2O K2SO4 + H+1 SO4-2 K+1 OH-1 Salt ? =Potassium Sulfate ( )_( )_ 2 1 K+1 SO4-2 K2SO4
Acid and Metal Metal Hydrogen Salt + Acid+ 1 H2SO4 + 1 Mg(s) 1 1 H2(g) MgSO4 + H+1 SO4-2 Mg(s) = Magnesium Sulfate Salt ? ( )_( )_ 2 2 Mg+2 SO4-2 MgSO4
Titration Example One What is the molarity of a NaOH solution, if 12.01 mL is required to titrate 5.99 mL of 0.100 M HCl? 1. Balance the equation. 1 NaOH(aq)+ 1 HCl(aq) 1 1 NaCl(aq) + H2O(l) 2. Find moles used of known solution. MxV=n 0.100M x 0.00599L = 0.000599m HCl 3. Calculate moles used of unknown (titrant). 1 m NaOH = 0.000599m NaOH 0.000599 m HCl x 1 m HCl 4. Calculate the molar concentration of the titrant. n/V=M = 0.0499M NaOH ÷ 0.01201L 0.000599m NaOH
Notes Two Unit Eleven-Text Pages 550-558 Self Ionization of Water Brönsted-Lowrey Acid-Base Theory Arrhenius Theory Pages 550-558
Self Ionization of Water • Water is and acid and a base at the same time…amphoteric • H2O(l) + H2O(l) H3O+ + OH- • Mass Action Expression • Kw = [H3O+][OH-] • Or Kw = [H+][OH-] • Kw = 1.0 x 10-14
Brönsted-Lowrey Acid-Base Theory • Acid - proton donor • Base - proton acceptor • Acid-Conjugate Base / Base-Conjugate Acid • HCl(aq) + H2O(l) Cl−1(aq) + H3O+1(aq) • NaF(aq) + H2O(l) HF(aq) + NaOH(aq) • OH−1(aq) + H2O(l) H2O(l)+ OH−1(aq) • NH3(aq) + H2O(l) NH4+1(aq) + OH−1(aq) H+1 A B CA CB CB B A CA B A CA CB A CA CB B
Arrhenius Theory • Bases form OH- ions in water. • Acids form H+ions in water.
Arrhenius theory • HCl(aq) H+1(aq) + Cl−1(aq) • HF(aq) H+1(aq) + F−1(aq) • NaOH(aq) Na+1(aq) + OH−1(aq) • NH3(aq) +H2O(aq) NH4+1(aq) +OH−1(aq)
Polyprotic Acids • More than one proton to donate. • H2CO3(aq) H+1(aq) + HCO3-1(aq) • HCO3-1(aq) H+1(aq) + CO3-2(aq) • H2SO4 H+1(aq) + HSO4−1(aq) • HSO4−1 H+1(aq) + SO4−2(aq)
Notes Three Unit Eleven Titration Pages 574-578
Titration • Titration is a technique to determine the concentration of an unknown solution. • Titrant (unknown solution) • Phenolphthalein identifiesthe Endpoint.
Titration Endpoint • Add 10mL of HCl and three drops phenolphthalein to the flask. • Add about 8mL base, swirl and add the rest of the base using increasingly faster spins of the valve.(?????)
Titration-Acid Volume • Acid Burette • Initial Reading? • 1.98mL • Final Reading? • 7.97mL • Volume Used? • 5.99mL
Titration-Volume of Base Used. • Base Burette • Initial Reading? • 0.00mL • Final Reading? • 12.01mL • Volume Used? • 12.01mL
Titration Example Two • Lactic acid Concentration of Sauerkraut • For Joe’s final in chemistry, he was asked to find the concentration of lactic acid in homemade sauerkraut. • He did not have any home made sauerkraut. • Therefore, Joe was left to make the home made sauerkraut. • He looked on line and found the following recipe.
Pack the cabbage into a crock and weight it down. It should be fermented in one month.
Titration Example Two What Is the molarity of a sauerkraut juice if 10.0 mL is titrated using 89.9 mL of 1.00 M NaOH? 1. Balance the equation. 1 NaOH + 1 HC2H4OHCO2 1 1 NaC2H4OHCO2 + H2O 2. Find moles used of known solution. MxV=n 1.00M x 0.0899L = 0.0899m NaOH 3. Calculate moles used of unknown (titrant). 1m HC2H4OHCO2 0.0899m HC2H4OHCO2 = 0.0899m NaOHx 1 m NaOH 4. Calculate the Molar Concentration of theTitrant. n/V=M M = ÷ 0.01201L 0.0899m HC2H4OHCO2 M=0.0899M HC2H4OHCO2
Titration Example Three What is the volume of a 0.0622M Ba(OH)2 solution, if it is titrated using 43.8 mL of 0.1057 M HCl? 1. Balance the equation. 1 Ba(OH)2(q) + 2 HCl(aq 1 2 BaCl2(aq)+ H2O(l) 2. Find moles used of known solution. MxV=n 0.00463m HCl 0.1057M x 0.0438L= 3. Calculate moles used of unknown (titrant). 1 m Ba(OH)2 = 0.00232 m Ba(OH)2 0.00463 m HCl x 2 m HCl 4. Calculate volume of titrant. n/M=V = 0.0376M Ba(OH)2 ÷ 0.0622M 0.00234m Ba(OH)2
Lab B Titration Results Calculations • For each trial, calculate the molarity of the NaOH solution using the relationship • Conclusion and Question • 1. How reproducible were the results of your four trials?
Conclusions continued • 2. Define these terms: standard solution; titration; endpoint. • Standard Solution: When the concentration of a solution is known to a high degree of accuracy and precision. • titration: When the concentration of an acid or base is determined by neutralizing it. • endpoint: The point where you actually stop a titration, usually because an indicator has changed color. This is different than the "equivalence point" because the indicator might not change colors at the exact instant that the solution is neutral.
Notes Three Unit Eleven Weak Acid/Base pH Scale Calculating pH Pages 559-567
Weak Acids and Bases • A weak acid • little H+1 • A weak base • little OH-1 • [H+] or [OH-] from a Keq.
pH = -log[H+1] pH is a measure of the amount of hydrogen in a solution. It is based on the water. Stomach Acid pH Scale Vinegar Blood 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Neutral Acid Base 1M NaOH 1M HCl Ammonia Cleaner Lemon Juice Milk Water pH +pOH =14
pH of strong acid • Find the pH of a 0.15 M solution of Hydrochloric acid • pH = - log 0.15 • pH = - (- 0.82) • pH = 0.82
pH of a strong Base • What is the pH of the 0.0010 M NaOH solution? • pOH = - log (0.0010) • pOH = 3 • pH = 14 – 3 = 11 pH +pOH =14
Calculating pH (pH=-log[H+1]) The Ka for nitrous acid is 4.5 x 10-4. Calculate the [H+1] and pH in 0.15 M nitrous acid solution. 1) Balanced Equation HNO2 NO2-1 + H+1 [NO2-1] [H+1] 2) Mass Action Expression Ka= [HNO2] 3) What do we know? 0.15 0 0 4.5 x 10-4 Very small +x +x -x 1.5 x 10-1 x 0.15-x x 4) Calculate the [H+1] and pH. [x] [x] pH=-log[H+1] Ka= = 4.5 x 10-4 [0.15] pH=-log[ ] 0.0082M =2.09 =[H+1] X= [0.0082M]