c. Which is true about their concentration ratios? Check the box corresponding your answer. [Buffer 1] > [Buffer 2] > [Buffer 3] (Buffer 3] > [Buffer 2] > [Buffer 1] [Buffer 3] = [Buffer 2] = [Buffer 1] (Buffer 3] = [Buffer 2] > [Buffer 1] (Buffer 3] > [Buffer 2] = [Buffer 1] d. Which of the following is true about the ability of the three buffers to resist pH change when 1 mL of HCI is added to each buffer? Check the box corresponding your answer. Ability to resist pH change: Buffer 1< Buffer 2 < Buffer 3 Ability to resist pH change: Buffer 1 > Buffer 2 > Buffer 3 Ability to resist pH change: Buffer 1 = Buffer 2 = Buffer 3 Ability to resist pH change: Buffer 1< Buffer 2 = Buffer 3 Ability to resist pH change: Buffer 1 = Buffer 2 < Buffer 3 %3D e. Which solution has the highest buffer capacity? Check the box corresponding your answer. Buffer 1 Buffer 2 Buffer 3 Their buffer capacities are equal

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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4. A 100-mL buffer solution with pH of 4.80 is prepared as a stock solution. Using this stock
buffer solution, three buffers are prepared by diluting a given volume of the stock buffer (as
shown below) to 100 mL with water.
Volume used from
Buffer
Final volume, mL
original solution, mL
1
5
100
2
10
100
20
100
a. Do they have the same pH? Check the box corresponding your answer.
O Yes
O No
HY 47.1 Basic Biochemistry, Laboratory
b. Which is true about their absolute concentrations? Check the box corresponding your
answer.
[Buffer 1] > [Buffer 2] > [Buffer 3]
[Buffer 3] > [Buffer 2] > [Buffer 1]
[Buffer 3] = [Buffer 2] = [Buffer 1]
[Buffer 3] = [Buffer 2] > [Buffer 1]
[Buffer 3] > [Buffer 2] = [Buffer 1]
c. Which is true about their concentration ratios? Check the box corresponding your
answer.
[Buffer 1] > [Buffer 2] > [Buffer 3]
[Buffer 3] > [Buffer 2] > [Buffer 1]
[Buffer 3] = [Buffer 2] = [Buffer 1]
[Buffer 3] = [Buffer 2] > [Buffer 1]
[Buffer 3] > [Buffer 2] = [Buffer 1]
%3!
%3D
d. Which of the following is true about the ability of the three buffers to resist pH change
when 1 mL of HCI is added to each buffer? Check the box corresponding your answer.
Ability to resist pH change: Buffer 1< Buffer 2 < Buffer 3
Ability to resist pH change: Buffer 1 > Buffer 2 > Buffer 3
Ability to resist pH change: Buffer 1 = Buffer 2 = Buffer 3
Ability to resist pH change: Buffer 1 < Buffer 2 = Buffer 3
Ability to resist pH change: Buffer 1 = Buffer 2 < Buffer 3
e. Which solution has the highest buffer capacity? Check the box corresponding your
answer.
Buffer 1
Buffer 2
Buffer 3
Their buffer capacities are equal
Transcribed Image Text:4. A 100-mL buffer solution with pH of 4.80 is prepared as a stock solution. Using this stock buffer solution, three buffers are prepared by diluting a given volume of the stock buffer (as shown below) to 100 mL with water. Volume used from Buffer Final volume, mL original solution, mL 1 5 100 2 10 100 20 100 a. Do they have the same pH? Check the box corresponding your answer. O Yes O No HY 47.1 Basic Biochemistry, Laboratory b. Which is true about their absolute concentrations? Check the box corresponding your answer. [Buffer 1] > [Buffer 2] > [Buffer 3] [Buffer 3] > [Buffer 2] > [Buffer 1] [Buffer 3] = [Buffer 2] = [Buffer 1] [Buffer 3] = [Buffer 2] > [Buffer 1] [Buffer 3] > [Buffer 2] = [Buffer 1] c. Which is true about their concentration ratios? Check the box corresponding your answer. [Buffer 1] > [Buffer 2] > [Buffer 3] [Buffer 3] > [Buffer 2] > [Buffer 1] [Buffer 3] = [Buffer 2] = [Buffer 1] [Buffer 3] = [Buffer 2] > [Buffer 1] [Buffer 3] > [Buffer 2] = [Buffer 1] %3! %3D d. Which of the following is true about the ability of the three buffers to resist pH change when 1 mL of HCI is added to each buffer? Check the box corresponding your answer. Ability to resist pH change: Buffer 1< Buffer 2 < Buffer 3 Ability to resist pH change: Buffer 1 > Buffer 2 > Buffer 3 Ability to resist pH change: Buffer 1 = Buffer 2 = Buffer 3 Ability to resist pH change: Buffer 1 < Buffer 2 = Buffer 3 Ability to resist pH change: Buffer 1 = Buffer 2 < Buffer 3 e. Which solution has the highest buffer capacity? Check the box corresponding your answer. Buffer 1 Buffer 2 Buffer 3 Their buffer capacities are equal
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