target cell potential (0.517 V). You will be required to construct an electrochemical cell that will produce a cell potential as close as possible to the assigned potential. You may use any combination of metals and solutions given (Zn, Cu, Sn) however, one combination will work best – you may need to dilute one of the provided metalsolutions. It may not be possible to produce the exact cell potentials given but make the best effort possible in the time frame given. Compare the measured cell potential to the theoretical cell potential by calculating a percent error. Also include a cell diagram In this part of the experiment. Given values - 0.050 M for all metal solutions dilute the 0.050 M of the chosen metal solution This is for an online simulation, just give me the volume and I can do the rest, you can give me possible volumes to try Data to be filled Variable ValueValue Target Ecell (V) 0.517 i) Vstock in Vol Flask (mL) ii) [C] in Vol Flask 1 (M) iii) Vd in Vol Flask 2 (mL) iv) [C] in Vol Flask 2 (M) v) Ecell,obs (V) vi) % Error
target cell potential (0.517 V). You will be required to construct an electrochemical cell that will produce a cell potential as close as possible to the assigned potential. You may use any combination of metals and solutions given (Zn, Cu, Sn) however, one combination will work best – you may need to dilute one of the provided metalsolutions. It may not be possible to produce the exact cell potentials given but make the best effort possible in the time frame given. Compare the measured cell potential to the theoretical cell potential by calculating a percent error. Also include a cell diagram In this part of the experiment. Given values - 0.050 M for all metal solutions dilute the 0.050 M of the chosen metal solution This is for an online simulation, just give me the volume and I can do the rest, you can give me possible volumes to try Data to be filled Variable ValueValue Target Ecell (V) 0.517 i) Vstock in Vol Flask (mL) ii) [C] in Vol Flask 1 (M) iii) Vd in Vol Flask 2 (mL) iv) [C] in Vol Flask 2 (M) v) Ecell,obs (V) vi) % Error
target cell potential (0.517 V). You will be required to construct an electrochemical cell that will produce a cell potential as close as possible to the assigned potential. You may use any combination of metals and solutions given (Zn, Cu, Sn) however, one combination will work best – you may need to dilute one of the provided metalsolutions. It may not be possible to produce the exact cell potentials given but make the best effort possible in the time frame given. Compare the measured cell potential to the theoretical cell potential by calculating a percent error. Also include a cell diagram In this part of the experiment. Given values - 0.050 M for all metal solutions dilute the 0.050 M of the chosen metal solution This is for an online simulation, just give me the volume and I can do the rest, you can give me possible volumes to try Data to be filled Variable ValueValue Target Ecell (V) 0.517 i) Vstock in Vol Flask (mL) ii) [C] in Vol Flask 1 (M) iii) Vd in Vol Flask 2 (mL) iv) [C] in Vol Flask 2 (M) v) Ecell,obs (V) vi) % Error
target cell potential (0.517 V). You will be required to construct an electrochemical cell that will produce a cell potential as close as possible to the assigned potential. You may use any combination of metals and solutions given (Zn, Cu, Sn) however, one combination will work best – you may need to dilute one of the provided metal solutions. It may not be possible to produce the exact cell potentials given but make the best effort possible in the time frame given. Compare the measured cell potential to the theoretical cell potential by calculating a percent error. Also include a cell diagram In this part of the experiment.
Given values - 0.050 M for all metal solutions dilute the 0.050 M of the chosen metal solution
This is for an online simulation, just give me the volume and I can do the rest, you can give me possible volumes to try Data to be filled
Variable
ValueValue
Target Ecell (V)
0.517
i) Vstock in Vol Flask (mL)
ii) [C] in Vol Flask 1 (M)
iii) Vd in Vol Flask 2 (mL)
iv) [C] in Vol Flask 2 (M)
v) Ecell,obs (V)
vi) % Error
Definition Definition Study of chemical reactions that result in the production of electrical energy. Electrochemistry focuses particularly on how chemical energy is converted into electrical energy and vice-versa. This energy is used in various kinds of cells, batteries, and appliances. Most electrochemical reactions involve oxidation and reduction.
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