How can one construct a galvanic cell from two substances, each having a negative standard reduction potential?

A galvanic cell, also commonly known as a voltaic cell, is an electrochemical cell that uses a spontaneous redox (reduction-oxidation) reaction to generate an electric current. A redox reaction consists of two half-reactions, where one substance undergoes reduction, and another undergoes oxidation. Reduction potentials are values used to predict which half-reaction will proceed as a reduction reaction (gain of electrons) and which will proceed as an oxidation reaction (loss of electrons) when substances are combined in a galvanic cell. A higher standard reduction potential substance will have a greater tendency to gain electrons. When comparing the reduction potentials of two substances (E° values), the reaction becomes spontaneous if the final E° is positive. In this exercise, both substances have negative standard reduction potentials. Let's call these two substances A and B and their respective standard reduction potentials E°(A) and E°(B).

Compare the standard reduction potential of substance A and substance B. Select the one with the higher reduction potential. Let's assume that E°(A) > E°(B), so substance A will be the cathode where the reduction reaction will occur, and substance B will be the anode where the oxidation reaction will occur. Cathode half-reaction: A + ne^− → A(reduced form) Anode half-reaction: B → B(oxidized form) + ne^−

The cell potential for the spontaneous reaction (E°cell) is given by the difference in the standard reduction potentials of the two half-reactions: E°cell = E°(cathode) - E°(anode) Evaluate E°cell by substituting the E° values of the two substances A and B: E°cell = E°(A) - E°(B) Since both E°(A) and E°(B) are negative, and E°(A) is greater than E°(B), the E°cell will be positive, and the reaction will be spontaneous.

Construct a galvanic cell using the following steps: 1. Place substance A in a beaker and immerse a clean metal strip (such as platinum) into it as the cathode. 2. Place substance B in a separate beaker and immerse a clean metal strip (such as platinum) into it as the anode. 3. Connect the metal strips with a wire, and a salt bridge or a porous barrier should be used to connect the two solutions allowing the movement of ions while blocking the direct flow of solutions. 4. When the cell is connected, the redox reaction will spontaneously start to generate an electric current through the wire. In this way, one can construct a galvanic cell from two substances, each having a negative standard reduction potential.