Can you please answer question 1a through 1k? Thanks alot. Nernst Equation: E = E° – (RT/nF) ln Q DGo = -nFEo = -RTlnK 1a. Using Cell Notation and in not more than 2 lines, describe how to make a battery at home from plant source. My Electrolyte = __________________ 1b. Write balanced half-cell and overall equations for the reaction taking place in the described battery in 1. 1c. For the cell above, Calculate the standard electrode potential, Eo, for the balanced redox equation. 1d. Compare the calculated Eo to that of the actual [measured] lemon battery above, what is the % difference? 1e. why are they different? 1f. calculate the Gibbs Free Enegy, DGo,of actual the lemon cell above 1g. Is the cell reaction spontaneous? 1h. Why? 1j. Calculate the Keq for the cell 1k. What is the ratio of the concentration of the [oxidized ion] to that of the [reduced ion] at equilibrium
Can you please answer question 1a through 1k? Thanks alot.
Nernst Equation: E = E° – (RT/nF) ln Q
DGo = -nFEo = -RTlnK
1a. Using Cell Notation and in not more than 2 lines, describe how to make a battery at home from plant source.
My Electrolyte = __________________
1b. Write balanced half-cell and overall equations for the reaction taking place in the described battery in 1.
1c. For the cell above,
- Calculate the standard electrode potential, Eo, for the balanced redox equation.
1d. Compare the calculated Eo to that of the actual [measured] lemon battery above, what is the % difference?
1e. why are they different?
1f. calculate the Gibbs Free Enegy, DGo,of actual the lemon cell above
1g. Is the cell reaction spontaneous?
1h. Why?
1j. Calculate the Keq for the cell
1k. What is the ratio of the concentration of the [oxidized ion] to that of the [reduced ion] at equilibrium
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