Question

a Battery is connected to external circuit the potential drops within the battery is proportion to​

Answer 1

Answer:

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Answer 2

Answer:

The battery is proportion to ​the circuit's corresponding resistance

Explanation:

Step 1: The terminal voltages of the battery change as it matures, but the current it supplies stays the same because the circuit itself draws the current and is independent of the battery.

When a battery has no current flowing through it, the potential differential between its terminals equals the battery's emf. There is currently no chance of dropping past the internal barrier.

Step 2: The anode is the positive terminal when a load is placed across the battery, which is when it is discharging. In a circuit, electrons move from cathode to anode in the opposing direction from the electrolyte.

The battery's e.m.f is represented by E, its interior resistance by r, and its external resistance by R.

If so, E = i (r +R ).

Drop across the exterior circuit possibility

= iR

= E- ir

Therefore,  = E-ir is the effective voltage across the battery.

Therefore, the battery's decrease equals ir.

which depends on the circuit's amperage.

The battery is proportion to ​the circuit's corresponding resistance

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