The ionization constant of acetic acid (0.05 M) is 1.74x105. Answer 2 and 3 questions: (2) Calculate the degree of dissociation of acetic acid. A) 9.3 x 103 C) 9.33 x 10 (3) Calculate the concentration of acetate ion in the solution. A) 9.3 x 10 E) 9.33 x 10 C) 5.88 x 10 www B) 5.88 x 10 D) 1.87 x 10² D) 1.87 x 102 E) 2.94 x 10 B) 2.94 x 10
The ionization constant of acetic acid (0.05 M) is 1.74x105. Answer 2 and 3 questions: (2) Calculate the degree of dissociation of acetic acid. A) 9.3 x 103 C) 9.33 x 10 (3) Calculate the concentration of acetate ion in the solution. A) 9.3 x 10 E) 9.33 x 10 C) 5.88 x 10 www B) 5.88 x 10 D) 1.87 x 10² D) 1.87 x 102 E) 2.94 x 10 B) 2.94 x 10
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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(1) The electrolytic conductivity of a 0.1 M solution of acetic acid (corrected for the
conductivity of the water) was found to be 5.3 x 103 Scm. Calculate the molar
conductivity (Scm²mol¹).
A) 5.3 x 10³
B) 0.053
E) 0.53
D) 5.3
C) 53
The ionization constant of acetic acid (0.05 M) is 1.74×10, Answer 2 and 3 questions:
(2) Calculate the degree of dissociation of acetic acid.
A) 9.3 x 10³
C) 9.33 x 10+
B) 5.88 x 10 D) 1.87 x 102 E) 2.94 x 10³
(3) Calculate the concentration of acetate ion in the solution.
A) 9.3 x 10³
E) 9.33 x 10
C) 5.88 x 10
D) 1.87 x 102
B) 2.94 x 103
(4) CuSO4 is electrolyzed for 10 minutes with 5.1 A current, calculate mass (g) of Cu
deposited?
B) 0.265
A) 1.007
D) 0.296
C) 0.017
E) 0.005
IV- Fill the final answer:
(1) In certain electrolysis, 0.156g of Zn is deposited in cell containing ZnSO4 solution. Calculate
mass of Cu deposited in another cell containing CuSO4 solution in series.
0,1529
(2) Calculate the conductance (Siemens) of a wire of a resistance 0.001 2 (area of cross section
10 m, length=0.01m)?
1000 S
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