| Q. No. | Question | Answer |
| 81 | Why do ฮm values for strong electrolytes decrease steeply at high concentrations? | Due to strong inter-ionic attraction between ions. |
| 82 | How does increasing the temperature affect the conductivity (ฮบ) of a metallic conductor? | Decreases (due to increased resistance from thermal motion). |
| 83 | How does increasing the temperature affect the conductivity (ฮบ) of an electrolytic solution? | Increases (due to increased ionic mobility). |
| 84 | What is the standard EMF of a cell where the reaction quotient Q=1? | Ecell=Ecell∘ (Nernst equation simplifies). |
| 85 | What is the effect of changing the size of the electrodes in a cell on Ecell? | No effect (potential is an intensive property). |
| 86 | If ฮG∘=0, what is the value of Kc? | Kc=1 (Ecell∘=0). |
| 87 | Which factor determines the order of discharge of ions at an electrode? | The Standard Reduction Potentials of the competing ions. |
| 88 | Why are Li ions the strongest reducing agent in aqueous solution despite high IE? | Due to their highest hydration enthalpy (small size). |
| 89 | In a concentration cell, what drives the cell potential? | The difference in the concentration of the electrolyte at the two half-cells. |
| 90 | What is the maximum number of decimal places allowed in the final EMF calculated using 0.0591? | Three (limited by the constant 0.0591). |
| 91 | What is the role of the porous plate in a Lead Storage Battery? | To separate the anode and cathode compartments and allow ion migration. |
| 92 | What are the typical fuels used in commercial Fuel Cells? | H2,CH4,CO, and Alcohols (like methanol). |
| 93 | What happens at the anode when Cu is purified by electrolysis? | Impure Cu dissolves (Cu→Cu2++2e−). |
| 94 | What happens at the cathode when Cu is purified by electrolysis? | Pure Cu is deposited (Cu2++2e−→Cu). |
| 95 | What is the condition for Ecell to increase with increasing temperature for a spontaneous reaction? | ฮS must be positive (ฮH<0). |
| 96 | What are the dimensions of the Cell Constant (G∗)? | Length−1 (m−1 or cm−1). |
| 97 | What is the reciprocal of the Cell Constant? | A/l (Ratio of area to length). |
| 98 | Why is the SHE difficult to use in practice? | Requires constant supply of H2 gas and 1 M H+ solution. |
| 99 | What is the value of the slope of the ฮm vs C plot for a strong electrolyte? | Negative (according to the Debye-Hรผckel-Onsager equation). |
| 100 | What is the general name for the non-rechargeable cell? | Primary Cell. |
| 101 | What is the general name for the rechargeable cell? | Secondary Cell. |
| 102 | What substance is reduced at the cathode of a dry cell? | MnO2 (Manganese dioxide). |
| 103 | What prevents the continuous rusting of iron? | The rust itself is porous and does not form a protective layer. |
| 104 | How many Faradays are required to deposit 10 g of Ca (MM=40 g/mol)? | 0.5 F (Ca2++2e−, so Eq Mass=20; 10/20=0.5). |
| 105 | What is the EMF of a cell represented by Ered(A)=−0.76 V and Ered(B)=−0.44 V? | 0.32 V (B is cathode: −0.44−(−0.76)=0.32 V). |
| 106 | Which metal is oxidized in the previous cell? | A (The one with the less positive/more negative reduction potential). |
| 107 | Does Ecell increase or decrease with dilution of the electrolyte in a concentration cell? | Depends on the concentrations; it increases if dilution exaggerates the concentration difference. |
| 108 | Is Cu2+ a stronger oxidising agent than Ag+ if EAg+∘>ECu2+∘? | No, Ag+ is the stronger oxidising agent. |
| 109 | What is the final product in the decomposition of water by electrolysis? | H2 (at cathode) and O2 (at anode) in a 2:1 volume ratio. |
| 110 | Why are strong electrolytes effective in maintaining electrical neutrality in the salt bridge? | They provide highly mobile ions that don't react with the electrolytes. |
| 111 | Name the specific type of corrosion that occurs on the surface of copper. | Verdigris (Green layer, a basic carbonate Cu(OH)2⋅CuCO3). |
| 112 | What is the ฮG of a spontaneous cell reaction? | Negative (ฮG<0). |
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