Galvanic Cells and Battery Functions

Converts chemical energy into electrical energy

Converts electrical energy into chemical energy

Converts mechanical energy into chemical energy

Converts thermal energy into electrical energy

At the anode

In the salt bridge

In the electrolyte solution

At the cathode

To increase the voltage output

To transfer ions and balance charge

To transfer electrons between half-cells

To connect the electrodes to a voltmeter

To increase the flow of electrons

To measure the voltage produced

To connect the anode and cathode

To act as a salt bridge

By dividing the standard potential of the cathode by the anode

By adding the standard potentials of the anode and cathode

By subtracting the standard potential of the anode from the cathode

By multiplying the standard potentials of the anode and cathode

The Nernst equation

The Arrhenius equation

The Van't Hoff equation

The Boltzmann equation

The voltage remains the same

The voltage becomes zero

The voltage doubles

The voltage halves