Ti³+ is to be generated in 0.10 M HCIO, for coulometric reduction of azobenzene. TiO2+ + 2H+ + e Ti³¹+ + H₂O E = 0.100V 4 Ti³+ + C₂H₂N-NC H, + 4H₂O2C,H, NH₂ +4 TiO2+ + 4H+ Azobenzene Aniline At the counter electrode, water is oxidized, and O₂ is liberated at a pressure of 0.210 bar. Both electrodes are made of smooth Pt, and each has a total surface area of 1.00 cm². The rate of reduction of the azobenzene is 25.9 nmol/s, and the resistance of the solution between the generator electrodes is 56.3 2. Calculate the current density (A/m²) at the electrode surface. current density: A/m²

Ti³+ is to be generated in 0.10 M HCIO, for coulometric reduction of azobenzene. TiO2+ + 2H+ + e Ti³¹+ + H₂O E = 0.100V 4 Ti³+ + C₂H₂N-NC H, + 4H₂O2C,H, NH₂ +4 TiO2+ + 4H+ Azobenzene Aniline At the counter electrode, water is oxidized, and O₂ is liberated at a pressure of 0.210 bar. Both electrodes are made of smooth Pt, and each has a total surface area of 1.00 cm². The rate of reduction of the azobenzene is 25.9 nmol/s, and the resistance of the solution between the generator electrodes is 56.3 2. Calculate the current density (A/m²) at the electrode surface. current density: A/m²

Chemistry: Principles and Reactions

8th Edition

ISBN:9781305079373

Author:William L. Masterton, Cecile N. Hurley

Publisher:William L. Masterton, Cecile N. Hurley

Chapter17: Electrochemistry

Section: Chapter Questions

Problem 89QAP: An electrolysis experiment is performed to determine the value of the Faraday constant (number of...

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