In the figure shown below, a resistance of is connected in series to an ammeter of resistance . A shunt resistance of is connected in parallel with the ammeter. The reading of the ammeter is _____ .

In the figure shown below, a resistance of is connected in series to an ammeter of resistance . A shunt resistance of is connected in parallel with the ammeter. The reading of the ammeter is _____ .

Correct answer:5
Standard Method
Given: Series resistor , ammeter resistance , shunt resistance , source voltage .
Find: The current through the ammeter in .
The ammeter and shunt are in parallel, so their equivalent resistance is
Now this parallel combination is in series with , so the total resistance is
Using Ohm's law, the total current in the circuit is
This current divides between the ammeter and the shunt. By current division, current through the ammeter is
Converting to milliampere,
Therefore, the reading of the ammeter is .
Using branch voltage directly
Given: The parallel branch contains the ammeter of resistance and shunt of resistance . The source voltage is .
Find: Current through the ammeter.
First find the equivalent resistance of the parallel branch:
Hence total circuit resistance is
So total current is
The voltage across the parallel combination is
This same voltage appears across the ammeter, so
This works because all branches in parallel have the same potential difference. Therefore, the ammeter reading is .
Using and as series resistances is incorrect because the ammeter and shunt are connected in parallel. First find their parallel equivalent, then add that result in series with .
Taking as the ammeter reading is wrong because is the total current supplied by the battery, not the current through the ammeter branch. Use current division or branch voltage to isolate the ammeter current.
Applying the current divider in reverse gives an incorrect branch current. For current through the ammeter branch of resistance , use the other branch resistance in the numerator.
Forgetting to convert into milliampere leads to the wrong numerical answer format. Multiply by to express the reading as .
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