It would be equivalent to adding a high value resistor (>10M ohms) in series in the circuit. Voltmeters typically present a high internal impedance so as to not change the current flow in the circuit you are tying to measure.
the circuit wont work the voltmeter only takes a voltage reading power does not actually pass through the meter
sometimes it can be used to measure very low leakage current using the hi impedance of the meter. EXAMPLE leakage offset from an amplifier. it could be into the nanoamps.
An ammeter is a low impedance device, intended to be placed in series with the part of the circuit that is being measured.
A voltmeter, on the other hand, is a high impedance device, intended to be placed in parallel with the part of the circuit that is being measured.
If you connect an ammeter in parallel with a voltmeter, the ammeter will short out the voltmeter, and the voltmeter will effectively read zero.
Worse, if the ammeter is connected in parallel with a part of the circuit, you also will short out that part, and the circuit will pull high current, blowing the fuse or circuit breaker, or causing damage to various components - at the very least, causing abnormal behavior.
An ammeter has a very low resistance, and a voltmeter has a very high resistance. So the ammeter will short circuit the supply, while the voltmeter will significantly increase the resistance of the load.
Connecting an ammeter in parallel acros a voltage source is as same as short circuit. It will draw huge fault current and may damage the meter and may result into injury to the persons involved.
Normally an ammeter is provided with a small fuse to protect the meter in such accidental cases.
You will measure the voltage across the load. Since meter is high impedance it should not affect the load. Save
it wont measure the resistance unless its also a ohm meter. i doubt it can break
They will both read zero provided they are not destroyed by the experience. For example a volt meter inserted in series with a very high current source could fry the meter.
An ammeter is always connected in series and a vlotmeter in parallel
Connecting an ammeter in parallel subjects that ammeter to the full supply voltage. The shunt resistor is not designed to sustain that value of voltage and will burn out. Also, the clue is in the word 'shunt' (which means 'in parallel') which means that the coil will also burn out!
Ammeters are connected in series with the load under test. This requires the load be disconnected from the source, and the ammeter placed in circuit. Voltmeters are connected in parallel with the load under test. This does not require any circuit changes. Sorry, but WikiAnswers does not support illustrations.
in voltmeter we have internal Resistance and connected in series , to current don't transfer in voltmeter , and we have internal resistance in ammeter and connected in parallel , to most current transfer through the ammeter.
For protection.. Since the current prefer the short cut ..
An ammeter is always connected in series and a vlotmeter in parallel
Because the ammeter connected in parallel will act as a short circuit.
Ammeter is coneccted in series with circuit but Voltmeter is connected in parallel.
An ammeter is connected in series. A voltmeter is connected in parallel. ammeter should always be connected in series instead of parallel becoz it is a low resistance device and we know that resistance is inversly proportional to current so more current will pass through it and if it is connected in parallel than it may get damaged
The voltmeter will register the volts, the ammeter will either explode or blow a fuse since it has a very low resistance and is designed to be used in series to measure the current flowing through it.
Connecting an ammeter in parallel subjects that ammeter to the full supply voltage. The shunt resistor is not designed to sustain that value of voltage and will burn out. Also, the clue is in the word 'shunt' (which means 'in parallel') which means that the coil will also burn out!
A shunt is connected in parallel with an ammeter. Any current applied to parallel devices will divide betwen them, so the ammeter will pass only a part of the total current.
SMOKE!!! Yiii-haaaa! An ammeter is always as low a resistance as possible. That way, the current that you measure in a circuit using the meter will be the same as if the meter were not there. So putting an ammeter in parallel with a circuit means that you just short circuited the circuit you were intending to measure. Poof! There goes your ammeter!An ammeter has a very low internal resistance. So, if it is connected in parallel with a load, it will short-out that load. The resulting high current flowing through the ammeter may severely damage the meter (and possible harm the user), although most are fitted with fuses to protect them.
Ammeters are connected in series with the load under test. This requires the load be disconnected from the source, and the ammeter placed in circuit. Voltmeters are connected in parallel with the load under test. This does not require any circuit changes. Sorry, but WikiAnswers does not support illustrations.
By attaching a resistance in parallel connection with the galvanometer. Or when a low resistor connected in parallel with galvanometer ,the galvanometer is converted in ammeter. and the resistor is called shunt resistance.
in voltmeter we have internal Resistance and connected in series , to current don't transfer in voltmeter , and we have internal resistance in ammeter and connected in parallel , to most current transfer through the ammeter.
the bulb will glow and ammeter will show the reading