It depends on1 the resistance of wire.2the voltage between the ends of the wire.3the flowing current time.
It depends on the current going through it. Ohm's law: Voltage equals current times resistance.
Load current is related to load resistance by an inverse relationship. The load current increases linearly as load resistance decreases. Remember, the less resistance, the more current.
Ohm's law: voltage is current times resistance. Restating this; current is voltage divided by resistance, so increasing resistance would decrease current.
Based on the simplest Electrical Equation V = I * R,(reads: voltage equals current multiplied by resistance)then, rearranged I = V / R .As resistance decreases, current flow proportionately increases
current depends on applied voltage and resistance.
No. Current depends on voltage and resistance. It's easy to have the same current at many different latitudes.
Current flowing through a device depends on resistance offered by that device.
Ohm's Law: Current = Voltage times resistance, hence current is directly proportional to voltage.
A diode is an electronic component with the characteristic that its resistance is not constant, but depends on the magnitude of the current through it. An ideal diode has zero resistance to current in one direction, and infinite resistance to current in the reverse direction.
That depends on the resistance connected. Use Ohm's Law: V=IR. Solving for current: I = V/R. If nothing is connected, there will be no current (infinite resistance).
The amount of current flowing in each branch of a parallel circuit depends on the resistance of each branch. The branch with less resistance will have more current flowing through it, while the branch with more resistance will have less current flowing. Each branch acts independently because they provide multiple paths for current to flow.
It depends on the resistance of the circuit, as V=IR, so I=V/R (V=Voltage, I=Current, R=Resistance)
... the voltage of the power supply and the resistance of that branch alone.
The current in amps (A) depends on the resistance in the circuit. Using Ohm's Law (I = V/R), you can calculate the current (I) by dividing the voltage (V) by the resistance (R). Without knowing the resistance in the circuit, we cannot determine the exact current at 320V.
Voltage = (current) x (resistance) Current = (voltage)/(resistance) Resistance = (voltage)/(current)
Voltage = (current) x (resistance) Current = (voltage)/(resistance) Resistance = (voltage)/(current)