Solubility        Quiz #8            Titrations and Max Ion Concentration

 

1.         What is the maximum [Ag⁺] that can exist in 0.20 M NaBrO₃?

            A.        1.1 x 10^-5 M

            B.        5.3 x 10^-5 M

            C.        2.6 x 10^-4 M

            D.        7.3 x 10^-3 M

 

2.         What is the maximum [Sr²⁺] that can exist in a solution of 0.10 M Na₂SO₄?

            A.        3.4 x 10^-7M

            B.        3.4 x 10^-6 M

            C.        1.7 x 10^-6 M

            D.        5.8 x 10^-4 M

 

3.         A student titrates a 25.00 mL sample of well water with 18.2 mL 0.100 M AgNO₃ to completely precipitate the chloride ion. The [Cl^-] is

            A.        1.82 x 10^-3 M

            B.        7.28 x 10^-2 M

            C.        1.37 x 10^-1 M

            D.        1.50 x 10^-1 M

 

4.         What is the maximum concentration of sodium sulphate, Na₂SO₄, that will dissolve in 1.0 L of 0.10 M Pb(NO₃)₂ without forming a precipitate?

            A.        1.8 x 10^-8 M

            B.        1.8 x 10^-7 M

            C.        1.3 x 10^-4 M

            D.        1.0 x 10^-1 M

 

5.         Consider the following equilibrium: AgCl_(s) ⇄ Ag⁺_(aq) + Cl^-_(aq)

            When Br^-_(aq) is added to a saturated solution of AgCl,

            A.        more AgCl dissolves and its solubility product increases

            B.        more AgCl precipitates and its solubility product decreases

            C.        more AgCl dissolves and its solubility product remains constant

            D.        more AgCl precipitates and its solubility product remains constant

 

6.         In a saturated solution of zinc hydroxide, at 40^oC, the [Zn²⁺] = 1.8 x 10^-5 M.

            The K_sp of Zn(OH)₂ is

            A.        5.8 x 10^-15

                    B.        2.3 x 10^-14  

            C.        1.8 x 10^-14    

            D.        6.5 x 10^-10

 

7.         What is the [Co²⁺] and [Cl^-] when 0.35 mol of CoCl₂ is dissolved in enough water to make 100.0 mL of solution?

            A.        [Co²⁺] = 3.5 M and [Cl^-] = 3.5 M

            B.        [Co²⁺] = 3.5 M and [Cl^-] = 7.0 M

            C.        [Co²⁺] = 0.35 M and [Cl^-] = 0.35 M

            D.        [Co²⁺] = 0.35 M and [Cl^-] = 0.70 M

 

8.         In which of the following would solid AgCl be most soluble?

A.        1 M HCl

            B.        1 M MgCl₂

            C.        1 M AgNO₃

            D.        1 M NH₄NO₃     

 

9.         At 25^oC, the maximum [Zn²⁺] that can exist in a 0.250 M Na₂S is

            A.        5.0 x 10^-26

                    B.        2.0 x 10^-25     

            C.        8.0 x 10^-25    

            D.        4.5 x 10^-13   

 

10.       The molar solubility of iron (II) sulphide   is

            A.        3.6 x 10^-37     

            B.        3.0 x 10^-19     

            C.        6.0 x 10^-19     

            D.        7.7 x 10^-10    

 

11.       What is the maximum [Pb²⁺] possible in a 0.10 M NaCl solution?

            A.        1.2  x  10^-5 M

            B.        6.0  x  10^-5 M

            C.        1.2  x  10^-3 M

            D.        1.2  x  10^-4 M

 

12.       What is the minimum [Ag⁺] required to start precipitation in a 0.10 M NaCl solution?

            A.        1.3  x  10^-5 M

            B.        6.0  x  10^-5 M

            C.        1.8  x  10^-10 M

            D.        1.8  x  10^-9 M

 

13.       What is the maximum [Pb²⁺] possible in a 0.10 M NaBr solution?

            A.        6.6  x  10^-5 M

            B.        6.6  x  10^-4 M

            C.        6.4  x  10^-4 M

            D.        3.0  x  10^-3 M

 

14.       What is the minimum [Ag⁺] required to start precipitation in a 0.10 M NaBr solution?

            A.        5.4  x  10^-12 M

            B.        5.4  x  10^-13 M

            C.        7.3  x  10^-7 M

            D.        1.8  x  10^-9 M

 

15.       Which of the ions below could be used in a precipitation reaction to determine the [SO₄^2-] in a water sample?

            A.        Be²⁺

            B.        Mg²⁺

            C.        Zn²⁺

            D.        Pb²⁺

 

16.       Which of the following ions could be used in the lowest concentration to remove Ag⁺ ions from a polluted water sample?

            A.        I^-

            B.        Br^-

            C.        BrO₃^-

            D.        IO₃^-

 

17.       Which of the following ions could in the highest concentration in a solution of Ag⁺?

            A.        I^-

            B.        Br^-

            C.        BrO₃^-

            D.        IO₃^-

 

18.       Which of the following ions would have the highest concentration in 0.10 M CO₃^2-?

            A.        Ba²⁺

            B.        Ca²⁺

            C.        Sr²⁺

            D.        Mg²⁺

 

19.       A saturated solution of SrSO₄ has a [SO₄^2-] of 1.0  x  10^-4 M. What is the [Sr²⁺]?

            A.        3.4  x  10^-3 M

            B.        6.8  x  10^-4 M

            C.        1.0  x  10^-4 M

            D.        3.4  x  10^-7 M

 

 

20.       Which of the following solutions could be used to separate the anions SO₄^2- and Cl^- from each other by precipitation?

            A.        NaNO_3(aq)

            B.        AgNO_3(aq)

            C.        Pb(NO₃)_3(aq)

            D.        Ba(NO₃)_2(aq)

 

21.       Which of the following solutions could be used to separate the cations BA²⁺ and Mg²⁺ from each other by precipitation?

            A.        NaNO_3(aq)

            B.        Na₂CO_3(aq)

            C.        K₂SO_4(aq)

            D.        KOH_(aq)

 

22.       Which of the following solutions could be used to separate the cations Ba²⁺ and Mg²⁺ from each other by precipitation?

            A.        NaNO_3(aq)

            B.        Na₂CO_3(aq)

            C.        K₂SO_4(aq)

            D.        KOH_(aq)

 

23.       Which of the following solutions could be used to separate the cations Be²⁺ and Ag⁺ from each other by precipitation?

            A.        NaCl_(aq)

            B.        Na₂CO_3(aq)

            C.        KNO_3(aq)

            D.        KOH_(aq)

 

24.       Which sequence of chemicals, in the order listed, would successfully separate Sr²⁺, Ca²⁺, and Ag⁺?

           

            A.        NaCl_(aq), Na₂CO_3(aq), and Na₂SO_4(aq)

            B.        NaCl_(aq), Na₂SO_4(aq), and Na₂CO_3(aq)

            C.        Na₂CO_3(aq), NaCl_(aq), and Na₂SO_4(aq)

            D.        NaCl_(aq), NaOH_(aq), and Na₂CO_3(aq)

 

25.       Which sequence of chemicals, in the order listed, would successfully separate Cu²⁺, Be²⁺, and Sr²⁺?

            A.        NaOH_(aq), Na₂CO_3(aq), and Na₂SO_4(aq)

            B.        Na₂S_(aq), NaOH_(aq), and Na₂CO_3(aq)

            C.        Na₂CO_3(aq), NaCl_(aq), and Na₂SO_4(aq)

            D.        NaCl_(aq), Na₂SO_4(aq), and Na₂CO_3(aq)

 

26.       Which sequence of chemicals, in the order listed, would successfully separate OH^- , Cl^-, and S^2-?      

            A.        NaNO_3(aq) , Zn(NO₃)_2(aq), and Pb(NO₃)_2(aq)

            B.        AgNO_3(aq), Zn(NO₃)_2(aq), and Pb(NO₃)_2(aq)

            C.        Ba(NO₃)_3(aq), Zn(NO₃)_2(aq), and Pb(NO₃)_2(aq)

            D.        Sr(NO₃)_2(aq), Zn(NO₃)_2(aq), and Pb(NO₃)_2(aq)