You can not keep the voltage constant while increasing or decreasing it!
CommentAn additional point worth making is 'voltage' doesn't 'flow'. By definition, it is the potential difference between two points.Yes, the relationship is given by the equation V = CR where V is the voltage is Volts, C is the current in Amps and R is the resistance in Ohms. If this equation was changed to equate to current it would be C = V/R. Now since resistance is in the denominator current is inversely proportional to it and the larger resistance becomes the less current can pass though the conductor.
V = I x R. hence I which represents current = V/R. Hence if V remains constant the current decreases as Resistance increases.
This happens only in pure series circuits, due to increased resistance.
It is halved. coz voltage=current * resistance
current is the movement of charg carriers (normaly electrons) through a conductive material. the easyest way to think about it is that voltage is like a force pushing on the electrons, and resistance will push back against this. Current is then the result of these two factors. This is where we get the equation voltage=current*resistance. In answer to your question, increasing the circuit resistance will decrease the current in the circuit, as long as the supply voltage stays the same.
In this case current flows from a high voltage to a lower voltage in a circuit.
An electron traveling through the wires and loads of the external circuit encounters resistance.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
The flow of electrons meets an increased impedance to it's flow.
The flow of electrons meets an increased impedance to it's flow.
If resistance is increased, current decreases. Ohm's Law: current equals voltage divided by resistance.
The voltage drop across each resistance will go up, and the current through the circuit will go down.
When you add resistance to a circuit, current goes down. Ohm's Law: current = voltage divided by resistance.
The resistance is increased, the voltage across each bulb is decreased and the current through the circuit is reduced.
This happens only in pure series circuits, due to increased resistance.
The current at every point in the series circuit becomes slightly less, because the increased length of wire adds slightly more resistance to the loop.
Yes, if the resistance remains constant. Power is voltage times current, and current is voltage divided by resistance, so power is voltage squared divided by resistance. In essence, the power increases as the square of the voltage.
It is halved. coz voltage=current * resistance