ELECTROCHEMISTRY & BATTERY SIMULATION

▸ Pouring ZnSO₄ + CuSO₄ solutions into 2 beakers…
▸ Dipping electrodes Zn (anode) · Cu (cathode)
▸ Installing KNO₃ salt bridge + wiring through the lamp
▸ Opening electron flow · ionization
▸ Ready — Online. ✅
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⌂ Matter

Simulation room Electrochemistry & Batteries

Electrochemistry
Online
redox · batteries
Voltage & current
🔋 Zn | Zn²⁺ ‖ Cu²⁺ | Cu
E°cell = E°(cathode) − E°(anode)
Anode (oxidation)
Cathode (reduction)
Electromotive force
Current
Salt bridge
Mode
Note
Oxidation = loss of e (at anode); reduction = gain of e (at cathode). Electrons flow through the external wire from anode → cathode; ions swim through the solution to close the circuit. Electrolysis is the reverse: an external source forces the reaction and the electrode signs flip.
Pick a metal pair / adjust the voltage in the right column · toggle the salt bridge · switch scenarios (cell · electrolysis · plating · corrosion) · click a concept for details
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Cell voltage sags during discharge (polarization) U dischargeE° open-circuit