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Choose which direction is spontaneous for the following reaction.  Calculate Eo for the spontaneous reaction.  If you now calculate E using the Nernst equation, you find that E = 1.18 eV.  Calculate the concentration of Al3+ if the concentration of Fe2+ is 2.25M. If you let this battery run at 3.6 amps, how long in minutes would you have to wait to lose 1.3 grams of your anode?   Fe2+  +  Alo  <--->  Feo  +  Al3+

Choose which direction is spontaneous for the following reaction.  Calculate Eo for the spontaneous reaction.  If you now calculate E using the Nernst equation, you find that E = 1.18 eV.  Calculate the concentration of Al3+ if the concentration of Fe2+ is 2.25M. If you let this battery run at 3.6 amps, how long in minutes would you have to wait to lose 1.3 grams of your anode?   Fe2+  +  Alo  <--->  Feo  +  Al3+

Chemistry: Principles and Reactions
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 65QAP: Consider a voltaic cell in which the following reaction takes place....
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Choose which direction is spontaneous for the following reaction.  Calculate Eo for the spontaneous reaction.  If you now calculate E using the Nernst equation, you find that E = 1.18 eV.  Calculate the concentration of Al3+ if the concentration of Fe2+ is 2.25M. If you let this battery run at 3.6 amps, how long in minutes would you have to wait to lose 1.3 grams of your anode?

 

Fe2+  +  Alo  <--->  Feo  +  Al3+

= Choose which direction is spontaneous for the following reaction. Calculate Eº for the spontaneous reaction. If you now calculate E using the Nernst equation, you find that E 2+ 1.18 eV. Calculate the concentration of Al³+ if the concentration of Fe² ₁3+ is 2.25M. If you let this battery run at 3.6 amps, how long in minutes would you have to wait to lose 1.3 grams of your anode? Fe2+ + Alº <---> Feº + A1³+
Transcribed Image Text:= Choose which direction is spontaneous for the following reaction. Calculate Eº for the spontaneous reaction. If you now calculate E using the Nernst equation, you find that E 2+ 1.18 eV. Calculate the concentration of Al³+ if the concentration of Fe² ₁3+ is 2.25M. If you let this battery run at 3.6 amps, how long in minutes would you have to wait to lose 1.3 grams of your anode? Fe2+ + Alº <---> Feº + A1³+
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Thank you so much!!! How many grams of would you have gained on the cathode side during the same amount of time it took to lose the 1.3 grams of anode?

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In which direction is this spontaneous reaction going? forward?

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