An electrochemical cell with the given line notation was constructed. S.C.E. || cell solution | Pt(s) The cell solution has a total volume of 1 L, a pH of 6.85, and is composed of 0.0019 M Ce(SO,),, 0.0011 M CeClą, and 0.0045 M Na, EDTA. The cell has a voltage of 0.242 V . Write the reaction for the right half-cell as a reduction and provide its standard reduction potential (E°). right half-cell reaction: Ce+ +e¯ → Ce3+ E° = Calculate the quotient for the uncomplexed ions, [Ce³+]/ [Ce++] , in the cell solution. [Ce3+] %3D [Ce++] Determine the formation constant quotient, K¡ (CEEDTA)/K¡ (CEEDTA¯). Kf (CEEDTA) K; (CEEDTA
An electrochemical cell with the given line notation was constructed. S.C.E. || cell solution | Pt(s) The cell solution has a total volume of 1 L, a pH of 6.85, and is composed of 0.0019 M Ce(SO,),, 0.0011 M CeClą, and 0.0045 M Na, EDTA. The cell has a voltage of 0.242 V . Write the reaction for the right half-cell as a reduction and provide its standard reduction potential (E°). right half-cell reaction: Ce+ +e¯ → Ce3+ E° = Calculate the quotient for the uncomplexed ions, [Ce³+]/ [Ce++] , in the cell solution. [Ce3+] %3D [Ce++] Determine the formation constant quotient, K¡ (CEEDTA)/K¡ (CEEDTA¯). Kf (CEEDTA) K; (CEEDTA
Chemistry
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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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![An electrochemical cell with the given line notation was constructed.
S.C.E. Il cell solution | Pt(s)
The cell solution has a total volume of 1 L, a pH of 6.85, and is composed of 0.0019 M Ce(SO,),, 0.0011 M CeClą, and
0.0045 M Na, EDTA. The cell has a voltage of 0.242 V.
Write the reaction for the right half-cell as a reduction and provide its standard reduction potential (E°).
right half-cell reaction: Ce+ +e →
Ce3+
E° =
V
Calculate the quotient for the uncomplexed ions, [Ce+] /[Ce++], in the cell solution.
[Ce+]
[Ce+]
=
Determine the formation constant quotient, Kf (CEEDTA)/K¡ (CeEDTA-).
Kf (CEEDTA)
Kf (CEEDTA](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7f695d17-8444-4577-855f-00f9d2a2bd3a%2Fb9a8cac8-d8e3-4776-867a-2f256d5c970b%2Fo2bj7lr_processed.png&w=3840&q=75)
Transcribed Image Text:An electrochemical cell with the given line notation was constructed.
S.C.E. Il cell solution | Pt(s)
The cell solution has a total volume of 1 L, a pH of 6.85, and is composed of 0.0019 M Ce(SO,),, 0.0011 M CeClą, and
0.0045 M Na, EDTA. The cell has a voltage of 0.242 V.
Write the reaction for the right half-cell as a reduction and provide its standard reduction potential (E°).
right half-cell reaction: Ce+ +e →
Ce3+
E° =
V
Calculate the quotient for the uncomplexed ions, [Ce+] /[Ce++], in the cell solution.
[Ce+]
[Ce+]
=
Determine the formation constant quotient, Kf (CEEDTA)/K¡ (CeEDTA-).
Kf (CEEDTA)
Kf (CEEDTA
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