B) Ammeter Burns Out When Connected In Parallel. Give Reasons at George Devlin blog

B) Ammeter Burns Out When Connected In Parallel. Give Reasons. This is because the internal resistance of an ammeter is very small, so the current comming out of. an ammeter is likely to burn if connected in parallel because ammeter is a low resistance device and when connected in.  — expert answer.  — if we connect the ammeter in series, the resistance becomes $r=0.1+100=100.1\omega$, and the. voltmeter ideally has infinite resistance. as the resistance of the ammeter is very very small, thus a large amount of current flows through it when it is connected in parallel and hence it.  — if an ammeter is connected in parallel because of the low resistance, it will be acting as a short circuit. Connecting the voltmeter with infinite resistance in parallel ensures no current flows through the voltmeter and.

This is because the internal resistance of an ammeter is very small, so the current comming out of. voltmeter ideally has infinite resistance.  — if an ammeter is connected in parallel because of the low resistance, it will be acting as a short circuit. Connecting the voltmeter with infinite resistance in parallel ensures no current flows through the voltmeter and. an ammeter is likely to burn if connected in parallel because ammeter is a low resistance device and when connected in.  — expert answer.  — if we connect the ammeter in series, the resistance becomes $r=0.1+100=100.1\omega$, and the. as the resistance of the ammeter is very very small, thus a large amount of current flows through it when it is connected in parallel and hence it.

An ammeter is always connected in parallel with the circuit in which

B) Ammeter Burns Out When Connected In Parallel. Give Reasons Connecting the voltmeter with infinite resistance in parallel ensures no current flows through the voltmeter and. as the resistance of the ammeter is very very small, thus a large amount of current flows through it when it is connected in parallel and hence it. This is because the internal resistance of an ammeter is very small, so the current comming out of. voltmeter ideally has infinite resistance.  — expert answer. Connecting the voltmeter with infinite resistance in parallel ensures no current flows through the voltmeter and.  — if an ammeter is connected in parallel because of the low resistance, it will be acting as a short circuit. an ammeter is likely to burn if connected in parallel because ammeter is a low resistance device and when connected in.  — if we connect the ammeter in series, the resistance becomes $r=0.1+100=100.1\omega$, and the.