Question:
The reduction potential of hydrogen half-cell will be negative if
The reduction potential of hydrogen half-cell will be negative if
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The reduction potential is determined by the concentrations of Hand H2, as described by the Nernst equation.
Updated On: Jan 8, 2025
- \( \text{p}(\text{H}_2) = 1 \, \text{bar} \, \text{and} \, [\text{H}] = 1 \, \text{M} \)
- \( \text{p}(\text{H}_2) = 1 \, \text{bar} \, \text{and} \, [\text{H}] = 2 \, \text{M} \)
- \( \text{p}(\text{H}_2) = 2 \, \text{bar} \, \text{and} \, [\text{H}] = 1 \, \text{M} \)
- \( \text{p}(\text{H}_2) = 2 \, \text{bar} \, \text{and} \, [\text{H}] = 2 \, \text{M} \)
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The Correct Option is C
Solution and Explanation
The reduction potential is influenced by the pressure of $H_2$ and the concentration of Hions. According to the Nernst equation, when the pressure is increased to 2 bar while the concentration of [H] is 1 M, the reduction potential becomes negative.
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