The degree of ionization of a weak acid
____________________.
Select all that are True.
a) varies with the concentration of the acid.
b) depends on the ionization constant of the weak acid
c) is 100%.
d) is between 50% and 100%
e) depends on which weak acid it is.
The degree of ionization of a weak acid ____________________. Select all that are True. a) varies...
Which of the following statement is incorrect Select one: a. The degree of dissociation of weak electrolyte depends on concentration b. Both A and C are correct c. The degree of dissociation of weak electrolyte increases as concentration increases d. The degree of dissociation of strong electrolyte is 1 at all concentration e. The molar conductivity at infinite dilution cannot be obtained from extrapolation of molar conductivity versus concentration back to zero concentration for weak electrolyte Next page
What is the percent ionization of a 0.0741 M solution of a weak acid if the weak acid ionization constant, ka, is 2.0 x 10at 25 °C? Select one: a. 0.038% b. 0.30 % c. 1.4% d. 0.52% e. 5.2%
The degree to which a weak base dissociates is given by the base-ionization constant, Kb. For the generic weak base, B B(aq)+H2O(l)⇌BH+(aq)+OH−(aq) this constant is given by Kb=[BH+][OH−][B] Strong bases will have a higher Kb value. Similarly, strong bases will have a higher percent ionization value. Percent ionization=[OH−] equilibrium[B] initial×100% Strong bases, for which Kb is very large, ionize completely (100%). For weak bases, the percent ionization changes with concentration. The more dilute the solution, the greater the percent ionization....
< Homework 42 Weak Acid / Weak Base Equilibrium + Percent Ionization 2 of 8 Constants Periodic Table Percent ionization can be used to quantify the extent of ionization of an acid in solution and is defined by the following formula for the acid HA: A certain weak acid, HA, has a Ka value of 4.7x10-7 Percent ionization=1 _HA ionized HA initial x 100% Part A Percent ionization increases with increasing K. Strong acids, for which K, is very large,...
2. DILUTION EFFECT ON THE PERCENT IONIZATION OF A WEAK ACID a. A weak acid, HX, is 1.3 % ionized in 0.20 M solution. What percent of HX is ionized in a 0.030 M solution? Show the complete setup. percent ionization b. From your result in (a) above answer the following questions: i) How did the percent of ionization change upon dilution? (increased, or decreased) ii) How did the [H,O') concentration of the above weak acid change upon dilution? (increased,...
percent ionization of a weak base pH and Percent lonization of a Weak Base Ammonia, NH, is a weak base with a Ky, value of 1.8 x 105 The degree to which a weak base dissociates is given by the base ionization content K) For the generic weak base, B B(aq) + H2O(1) BH(aq) + OH (!) this constant is given by Pan A KDO What is the pH of a 0.165 Mammonia solution? Express your answer numerically to two...
Which of the following statements is NOT true? Select all that apply. Group of answer choices a. The concentration of H+ can be determined from the concentration of OH- and the Kw. b. An acid and its conjugate base differ only by one hydroxide ion c. An acid with a Ka > 1 is considered a weak acid d. The conjugate base of a strong acid will be a strong base e. Strong acids are expected to completely ionize in...
28. An initially 1.8 M aqueous solution of a weak monoprotic acid has a total ion concentration has a total ion concentration of 8.45 x 10-3 M when equilibrium is established. What is the acid-ionization constant, K of the weak acid? (assume n a. 3.3 x 10-2 b. 6.8 x 10-2 c. 1 x 10-5 d. 7.1 x 10-5 e. 2.7 x 100
A weak acid, HA, is a monoprotic acid. A solution that is 0.250 M in HA has a pH of 1.890 at 25°C. HA(aq) + H2O(l) ⇄ H3O+(aq) + A-(aq) What is the acid-ionization constant, Ka, for this acid? What is the degree of ionization of the acid in this solution? Ka = Degree of ionization =
Question HA is a weak acid. Its ionization constant, K, is 3.0 x 10) Calculate the pH of an aqueous solution with an initial NaA concentration of 0.060 M. Question 2 We place 0.150 mol of a weak acid, HA, in enough water to produce 100L of solution. The final pH of the solution is 1.18. Calculate the ionization contant, K., HA. Question We place 0.607 mol of a weak acid, HA, and 13.9 g of NaOH in enough water...