SOLUBILITY EQUILIBRIUM
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1 Introduction SOLUBILITY EQUILIBRIUM A. Ionic vs Molecular Solutions 1. Ionic Compounds form Ionic Solutions a) Ionic compounds ( + ) dissolved in water to form Ionic Solutions eg1: equation AlCl3(s) Al3+ (aq) + 3Cl- (aq) ionic compound free ions / electrolytes Electrolyte: (e.g. AlCl 3 above) b) Compounds containing polyatomic ions form solutions. eg: KMnO4 KMnO4(s) K + (aq) + MnO4 - (aq) Polyatomic ion 2. Covalent Compounds form Molecular Solutions a) Covalent Compounds (Non-metal + Non-metal) generally form solutions. eg. I2(s) I2(aq) C 2 H 2(g) C 2 H 2 (aq) do NOT break up into ions when dissolve: are called non b) organic compounds form molecular solutions. eg: C12H22O11(s) C12H22O11(aq) exception: organic (they end in the " ") What Causes Electrical Conductivity? A liquid must have in it to conduct electrical current Dissolved ions move and carry a, therefore can electrical current 1
2 SUMMARY 1. Compounds made up of a metal and a non-metal will form ionic solutions. 2. Compounds containing polyatomic ions will form ionic solutions. 3. Compounds containing only non-metals (covalent compounds) will form molecular solutions. 4. Organic compounds (other than those ending in the "COOH" group) will form molecular solutions. 5. Organic acids (organic compounds ending in the "COOH" group) will form partially ionic solutions. (These are ionic but because there are fewer ions formed, these solutions are weak conductors or weak electrolytes.) B. Solubility and Solubility Equilibrium E.g. Put solid ionic solid (crystal) in water: Initially,no ions in the water, so rate of dissolving is high no free ions will go back onto the crystal, so rate of precipitation is zero. 1. Ionic Solid Aqueous Solution ( ) At first, only the is taking place: Eventually, solution fills with free ions and forward rate begins to decrease 2. Ionic Solid Aqueous Solution ( or ) The number of free ions that collide and stick to the crystal increases. This is the : Eventually, reverse rate matches forward rate, and we reach Ionic Solid Aqueous Solution CaCO3(s) Ca 2+ (aq) + CO3 2- (aq) Solubility Equilibrium: The rate of = The rate of A saturated solution is a solution in which Solubility is the equilibrium concentration of a substance in a The Solubility of a substance is the maximum amount that can dissolve in a given amount of solution at a given temperature. (the "ability" to dissolve) Solubility increases with 2
3 Molar solubility: when concentration is expressed in or g/l Hebden # 1-7 WRITING FORMULA, COMPLETE AND NET IONIC EQUATIONS eg. Mix solution of AgNO 3 with a soln of Na 2 CO 3. Formula eqation - balanced eqn with all and : 2AgNO 3 (aq) + Na 2 CO 3 (aq) Ag 2 CO 3 (s) + 2NaNO 3 (aq) Complete ionic equation - balanced eqn showing all : 2Ag (aq) + 2NO 3 (aq) + 2Na + 2- (aq) + CO 3 (aq) 2Ag + 2- (s) + CO 3 (s) + 2Na (aq) + 2NO 3 (aq) - only Ag and CO 3 are reacting and precipitating. How do we know which ions will precipitate? (must look to Ksp value), - the other ions are ions Hebden # 25 Net ionic equation - balanced eqn showing only species in the 2Ag + (aq) + CO 3 2- (aq) Ag 2 CO 3 (s) PREDICTING THE SOLUBILITY OF SALTS 1. Definitions "Low Solubility" = a precipitate(precipitate). "Soluble" = a precipitate. A substance has low solubility if a saturated solution of the substance has a 2. Finding the solubility of a compound To find this, we use a Solubility Table(Hebden p.332) 1. Find anion. (column 1) 2. Look for matching cation (column 2) 3. Answer (column 3) IMPORTANT: Cu + Cu +2 Know what an alkali is FeCO 3 CuI PbBr 2 Soluble Low Solubility Hebden #
4 SEPARATING MIXTURES OF IONS BY PRECIPITATION METHODS eg1: A solution contains both Ag + and Ba 2+. How do you separate these cations? Use Solubility Table to find a negative ion which will form a precipitate with.but not! if you add or or the precipitate should contain Ag+ and the solution should still contained Ba 2+. ALSO SO4 2-, would be a choice for the above example because. E.g. 2) A soln may contain Ag +, Ba 2+, and Ni 2+. What ions could be added, and in what order to determine which cations are present? make a precipitate table: Ag + Ba 2+ Ni 2+ Cl - SO 4 2- S 2- OH - PO 4 3- Can not use or b/c they will form precipitate w all three cations Step 1. Add first because it forms precipitate only with then filter out the Ag + is gone, so now only consider Ba 2+ and S 2- Step 2. (Two Possibilities) Can add either which will form a precipitate with only Ba 2+ - then filter out the - only remains in the solution or (foms precipitate w only Ni 2+ ) - then filter out the - only remains in the solution Hebden #
5 REVIEW: DILUTION AND UNITS OF CONCENTRATION A. Dilution dilution formula: C 1 V 1 = C 2 V 2 eg1) Mix 5.0mL of Cl 2 solution with 15.0mL of M Br - solution. What is the concentration(c 2 ) of the Br - ion in the new solution? C 2 = C1V1 = V2 eg2) There are 7.0 x 10 4 mol [Na 2 SO 4 ] in ml of solution. What is the [Na + ]? [Na + ] = B. Units of Concentration eg1) 1L of saturated soln contains 1.96g of AgBrO 3 What is the molar solubility of AgBrO 3? [AgBrO 3 ] = eg2) The molar solubility of BaF 2 is 3.58mol/L. How many grams of BaF 2 exist in 726mL of saturated solution? Grams of BaF 2 = THE SOLUBILITY PRODUCT (K sp ) K sp = the (K eq ) for an ionic substance dissolving in water. eg. CaCO3(s) dissolves in water net-ionic eqn: CaCO3(s) Ca 2+ (aq) + CO3 2- (aq). Ksp = [ ] [ ] ([CaCO3] included is a solid) [Ca 2+ ] and [CO3 2- ] at equilib are their solubilities 5
6 Writing K sp expression from the Net-Ionic Equation. Steps 1. Write out equilib eqn showing the salt dissolving 2. Write out the equilib expression (leave out the solid) eg1: PbCl2(s) Pb 2+ (aq) + 2Cl - (aq) K sp = eg2: Ag2SO4(s) K sp = Definitions Solubility: Molar solubility: Solubility product: Hebden # CALCULATING SOLUBILITY & ION CONCENTRATION E.g.1: What is the molar solubility (mol/l) of a saturated AgBrO 3(aq) solution if 1 L contains 1.96 g of AgBrO 3? [AgBrO 3(aq) ] = 1.96 g AgBrO 3 x AgBrO 3 = 1L AgBrO 3 AgBrO 3 E.g. 2: Express the molar solubility of PbI 2 in g/l. Molar solubility = 1.37 x 10-3 Use Molar mass Solubility in g/l = Read examples on p. 80 Hebden # 8-20 CALCULATIONS WITH K sp Calculating Solubility given K sp. e.g. Calculate molar solubility of AgCl. K sp for AgCl = 1.8 x Step 1. Pick a variable and use mole ratios to find other concs: -s +s +s AgCl(s) Ag + (aq) + Cl - (aq) 6
7 Step 2. Write out solubility expression. K sp = Step 3. substitute in variables Since: K sp = [Ag + ] [C] = [ ][ ] = Step 4. Solve for s K sp = s 2 = s = = Answer: the molar solubility of AgCl is Calculating K sp, Given Solubility eg. solubility of Ag 2 CrO 4 is 1.31 x 10-4 moles/l. Calculate Ksp. Step1. write net-ionic eqn Ag2CrO4 (s) Step 2. use mole ratios to find the other concs: [Ag +] = 2 x 1.31 x 10-4 M = [CrO4 2- ] = Step 3. substitute values into K sp equation: Calculating [ion] K sp = [Ag + ] 2 [CrO4 - ] = Eg. What is the [ Mg 2+ ] in a saturated soln of Mg(OH) 2? Mg(OH) 2 (s) Mg 2+ (aq) + 2OH - (aq) K sp =[ Mg 2+ ][ OH - ] 2 -x x 2x If you are not given Ksp find K sp = [ Mg 2+ ][ OH - ] 2 = (x)(2x) 2 = 4x 3 = it on table of Solubility Product Constants (p. 333) x = Therefore, [ Mg 2+ ] = Hebden #
8 Predicting Precipitates and Maximum Ion Concentration A. Predicting Precipitates When Two Solutions Are Mixed 1. Review The Ksp for CaCO3 is 5.0 x 10-9 Ksp = [Ca 2+ ] [CO3 2- ] The Ksp value from above comes from a solution if you try to add more than 5.0 x 10-9 Ca 2+ or CO3 2- a will form because the solution can t any more! 2. Mixing two solutions (ions are from different sources) E.g. Mixing solutions of Ca(OH) 2 and Na 2 CO3 resulted in the following concentrations: [Ca 2+ ] = 2.3 x 10-4 M and [CO3 2- ] = 8.8 x 10-2 M. Will a precipitate form? Table shows CaCO3 Ksp = Step 1. Calculate "trial Ksp" Trial Ksp = [Ca 2+ ] [CO3 2- ] = Step 2. Compare the Trial Ksp with the real value for Ksp = Trial Ksp = Ksp = Trial Ksp Ksp precipitate form If trial Ksp < Ksp, a precipitate will NOT form. B. Maximum Possible Concentration of an Ion in Solution AgCl(s) Ag + (aq) + Cl - (aq) e.g. 1: Cl - is added to a solution having only Ag + ([Ag + ] = is 1.0 x 10-5 M). What is the maximum [Cl -] before precipitate forms? Ksp = 1.8 x Ksp = ] [ Cl - ] = 8
9 e.g. 2: If a 5.0 ml sample of 6.0 x 10-5 M Ag + is added to 10.0 ml of 4.2 x 10-6 Cl -, will a precipitate form? C 2 = C 1 V 1 V 2 [Ag + ] = Four Steps dilution trial Ksp comparison to Ksp statement [Cl - ] = Q = [Ag + ][Cl - ] = Q = Ksp = a precipitate will/will not form e.g. 3: If 0.1 M KCl is added dropwise to a beaker containing 0.10 M Ag + and 0.10 M Pb 2+, which precipitate would form first? Show all equations and calculations. We can calculate the minimum [Cl - ] needed to start the precipitation of AgCl and PbCl 2 by using the Ksp values. AgCl Ksp = PbCl 2 Ksp = AgCl(s) Ag + (aq) + Cl - (aq) PbCl 2(s) Pb 2 + (aq) + 2 Cl - (aq) Ksp = [Ag + ] [Cl - ] = [ ] [Cl - ] [Cl - ] = = Ksp = [Pb 2 + ] [Cl - ] 2 = [ ] [Cl - ] 2 [Cl - ] = = As < will precipitate out first. Hebden #
10 Solubility and Titrations Sample Solution - A solution of conc. Standard Solution- solution of conc used in a titration. Equivalence Point The point where Titration the process of Indicator substance which does something (i.e. changes colour, form a precipitate) to show equivalence point The purpose of a titration is to find the conc of an unknown solution. E.g.: What is the concentration of a Cl - solution which is in the range 0.10 and 5.0 M? Use CrO 4 2- as an indicator and force out a precipitate with Ag M Ag + Note: the flask should be swirled throughout the procedure and the titrant should be added slowly??? M Cl - and M CrO 4 2- These 2 equilibria exist in the flask AgCl (s) Ag + + Cl - Ksp = [Ag + ][ Cl - ] = 1.8 x Ag 2 CrO 4(s) 2Ag + + CrO 4 2- Ksp = [Ag + ] 2 [ CrO 4 2- ] = 1.1 x
11 Recall Ksp tells us when a will form. Therefore we can use the Ksp values to determine what of Ag + will form a precipitate first Ksp = [Ag + ][Cl - ] [Ag + ] = Ksp [Cl - ] [Ag + ] needed for a precipitate 0.10 M Cl M Cl M CrO 4 [Ag + ] = Ksp [Cl - ] [Ag + ] = Ksp [Cl - ] [Ag + ] 2 = Ksp [CrO 4 2- ] = = = Therefore would precipitate out first followed by and finally Note: if CrO 4 2- did not precipitate last then it could not be used as an indicator Visual Observations (wile slowly adding Ag + with swirling) 1. WHITE precipitate forms = AgCl(s) take biureet reading A 2. RED precipitate forms = Ag 2 CrO 4 (s) take biuret reading B 3. when red precipitate has formed almost all of Cl - has reacted A B A B = ml of 0.10 Ag + needed to precipitate out Cl - Tion Calculate moles Ag + And since moles Ag + = moles Cl - and we know the initial volume of Cl - solution FFinally we can calculate [Cl - ] E.g. 2: What is the concentration of [Cl - ] in a 25.0 ml sample of sea water? To get to the equivalence point 26.8 ml of M AgNO 3 was added. Ag + + Cl - AgCl (s) Moles Cl - = [Cl - ] = Hebden #
12 Removing Pollution and Hardness from Water by Precipitation Methods PROBLEM: Waste-water from a mine has [Sr 2+ ] = 0.005M, but according to law, [Sr 2+ ] cannot exceed 1.0x10-5 M. SOLUTION: add CO 3 2- to waste water to remove Sr 2+ as SrCO 3. Hazardous SrCO 3(s) Sr 2+ + CO 3 2- Question: What [CO 3 2- ] is needed in the waste-water to lower [Sr 2+ ] to1.0x10-5 M? K sp of SrCO 3 = [Sr 2+ ][CO 3 2- ] = (from Ksp table) Want [Sr 2+ ] = 1.0x10-5 M Therefore, [CO 3 2- ] = Hard Water Water is hard if too much or is present. Acid rain dissolves natural limestone (CaCO 3 ), and ions flow into water sources. CaCO 3(s) + 2H + (aq) Ca 2+ (aq) + H 2 O (l) + CO 2(g) + heat (Same happens to MgCO 3(s) ) In hot pipes and hot pots: the equilib is forced leaves the ions and solid behind Read p.103 Use your head Talk to your partner pots and pipes get that white stuck on them. How to soften the water: Add an ion that will form a with Ca 2+ and Mg 2+ (eg. C 17 H 22 COO - ) Boil the water and force equilib (precipitate out the ions) out the precipitate Hebden #
13 The Common Ion Effect and Altering Solubility recall Le Chetaliers Principle: When a system at equilibrium is disturbed, the equilibrium will so as to counteract the disturbance. E.g. 1-3 Saturated solution: CaCO3(s) Ca 2+ (aq) + CO3 2- (aq) 1. The Common Ion Effect Disturbance Dissociation Ion effect Shift Amount of solid add CaCl2 CaCl2 (s) Ca 2+ (aq) + 2Cl - (aq [Ca 2+ ] add K2CO3 2. Decreasing Solubility Added compound Ions Effect on Solubility of CaCO3(s) Reason for effect Ca(NO3)2 Ca 2+ NO3 - KNO3 K + NO3 - CaCO3 Ca 2+ CO3 2- Notice: the equilib shifts when a substance that has a ion is added. This is the. The added compound should not have because their dissolved ions are needed for the above reaction. 13
14 3. Increasing Solubility a) By Adding Acid CaCO3(s) Ca 2+ (aq) + CO3 2- (aq) decrease [Ca 2+ ] or [ CO3 2- ] to solubility of CaCO3(s) how to decrease? Add acid (H + ) CaCO3(s) Ca 2+ (aq) + CO3 2- (aq) H + (from acid) H2CO3(aq) decomposes H2O(l) + CO2(g) Overall effect: [CO3 2- ] and equilib shifts Solubility of CaCO3(s) is. b) By Forming Another Precipitate AgCl(s) Ag + (aq) + Cl - (aq) Add something that forms a with Ag + or Cl - Sulphide forms a precipitate with Ag + : AgCl(s) Ag + (aq) + Cl - (aq) + S 2- (S 2- is added) Overall effect: [ Ag + ] and equilib shifts Solubility of AgCl(s) is. Could also use Pb 2+ to precipitate ions Ag2S(s) Hebden # Solubility Test Coming Soon 14
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