0.92V
The voltage of a galvanic cell made with silver and nickel will depend on the specific conditions of the cell, such as the concentrations of the electrolytes and the temperature. Typically, a cell made with silver and nickel could have a voltage range between 0.8 to 1.0 V.
The voltage of a galvanic cell made with silver and nickel will depend on the specific half-reactions involved. However, using standard reduction potentials, the cell voltage can be calculated as the difference between the reduction potentials of the two metals.
The voltage of a galvanic cell made with silver (Ag) and nickel (Ni) will depend on the standard reduction potentials of the two metals. The standard reduction potential of silver is +0.80 V and for nickel it is -0.25 V. The voltage of the cell will be determined by the difference in these potentials, so the cell voltage would be (0.80 V) - (-0.25 V) = 1.05 V.
4.2 V
The voltage of a galvanic cell made with silver and nickel will depend on the specific conditions and concentrations of the electrolytes used. However, the standard electrode potentials for the silver and nickel electrodes are +0.80 V and -0.23 V, respectively. So, under standard conditions, the cell potential would be 1.03 V.
0.92 V. apex
0.92V
0.92V
0.92V
The voltage of a galvanic cell made with silver and nickel will depend on the specific conditions of the cell, such as the concentrations of the electrolytes and the temperature. Typically, a cell made with silver and nickel could have a voltage range between 0.8 to 1.0 V.
4.2 V
4.2V
The voltage of a galvanic cell made with silver and nickel will depend on the specific half-reactions involved. However, using standard reduction potentials, the cell voltage can be calculated as the difference between the reduction potentials of the two metals.
4.2 V
1.05 V
2.02 +2.02 "APEX" :)
Al | Al^3+ Zn^2+ | Zn