The closer it gets to the battery te stronger it gets tambien if there us less bulbs the more it gets
-- In a series circuit, no matter where you install the ammeter, it will always read the same current. -- In a parallel circuit, the ammeter may read a different current when it's moved to a different parallel branch.
A: In series circuit the current remains the same no matter how many components are in series. just the voltage will change to reflect different voltage drops for each.
the current value at any part of the circuit is dependent upon the circuit conditions and not the ammeter. The meter will simply allow you to read those currents, whatever they may be.
Use Ohm's law that states that, the current is directly proportional to the applied voltage and inversely proportional to the resistance of the circuit. I = E/R.
Change the resistance in the circuit
non-linear circuit
A: In a series circuit the current remains the same for each components only the voltage across each component will change and only if the components are of different value.
The accuracy of ammeter changes as the resistance is increased or decreased.AnswerThe simple answer is yes, it will change. However, whether it will be a perceptible change is another question. Ammeters are designed to cause the minimum change to the actual circuit current when they are inserted into a circuit.
Insufficient information given.
A high current flows through a short circuit even if there is no voltage change because the resistance across the short circuit is zero.
As long as the voltage between the ends of the circuit remains constant, the current through the circuit is inversely proportional to the total effective resistance of the circuit.
Voltage leads current or, more specifically current lags voltage, in an inductive circuit. This is because an inductor resists a change in current.