The Potential Difference Across the Terminals of a Battery of Emf 12 V and Internal Resistance 2 ω Drops to 10 V When It is Connected to a Silver Voltameter.

प्रश्न

The potential difference across the terminals of a battery of emf 12 V and internal resistance 2 Ω drops to 10 V when it is connected to a silver voltameter. Find the silver deposited at the cathode in half an hour. Atomic weight of silver is 107.9 g mol⁻¹.

योग

उत्तर

Let i be the current through the circuit.

Emf of battery, E = 12 V

Voltage drop across the voltameter, V = 10 V

Internal resistance of the battery, r = 2 Ω

Applying Kirchoff's Law in the circuit, we get:-

\[E = V + ir\]

\[ \Rightarrow i = \frac{E - V}{r} = \frac{12 - 10}{2} = 1 A\]

Using the formula m = Zit, we get:-

\[m = \frac{107 . 9}{96500} \times 1 \times 0 . 5 \times 3600 = 2 . 01 g\]

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अध्याय 33 Thermal and Chemical Effects of Current
Exercises | Q 23 | पृष्ठ २१९

The Potential Difference Across the Terminals of a Battery of Emf 12 V and Internal Resistance 2 ω Drops to 10 V When It is Connected to a Silver Voltameter.

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The Potential Difference Across the Terminals of a Battery of Emf 12 V and Internal Resistance 2 ω Drops to 10 V When It is Connected to a Silver Voltameter.

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