Take a look at Ohm's Law, usually written as V=IR. Solving for current: I = V/R. That means that a lower resistance will result in a larger current.
Ohm's law applies: Current = Voltage / Resistance As such if you double the resistance of the light bulb you end up with half as much current.
Anemia
resistance is inversily proportional to squaire of radius of wire.
Ohm's Law: voltage = current * resistance. If resistance is a constant, then voltage is directly proportional to current.
Ohm's Law states: V = IR, where V is voltage, I is current and R is resistance. If the voltage is constant, then current is inversely proportional to the resistance.
if the resistance is decreased and the current stays the same, then the power decreases.
resistance is the opposition to the flow of an electric current, therefore the current will decrease as the resistance increases. Resistance also creates heat. This is how the light globes in a circuit light up.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
Increases the total resistance
The current in the circuit will be decreased by half. Ohm's law states V=IR so, I=V/R. If R is doubled, then I= V/2R.
Current draw would increase proportionally, heating up the wiring and wearing more on the load pulling the power.
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
This question follows Ohm's law which states, "Current is directly proportional to the applied EMF (voltage) and inversely proportional to the current in the circuit. <<>> decreased
Current will be decreased because of the resistance of the ammeter added to the circuit's resistance. In other words total resistance increases.
If you are referring to a simple circuit, you could add resistance throughout it. Increased resistance means decreased current flow yet the same voltage.
I = V/R (I is inversely related to R) Therefore, if R is decreased, I will increase if V is held constant.
The resistance of a conductor is directly proportional to the resistivity of the conductor. since the resistivity of a conductor is decreases with decrease in temperature hence the resistance.