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Theoretically there is no limit to the voltage of an electrical current.
If voltage increases when current remains constant then resistance must also increase. Ohm's Law: Voltage = Current times Resistance.
Electrical current is measured in amperes.
answer is actually voltage
I am not sure what exactly you expect. No: You can't violate the Law of Conservation of Energy. Yes: An electrical signal can be amplified - if you provide the power to do that from some source. Also, without input of additional energy, with a transformer you can increase the voltage (while reducing the current), or increase the current (while reducing the voltage).
Ohm's Law Voltage = Current x Resistance. So for a fixed voltage as R decreases then current increases proportionally.
Electrical current generally increases as voltage increases due to a need for increased capacity. This is directly controlled from the transmission side but varies based on the overall load.
If we increase the voltage by adding extra cells or batteries we give the electrical charges more energy and so, the current flowing around the circuit increases.
voltage = the electrical "pressure"current = the electrical "movement rate" or "flow rate"
To increase (current) flow in a circuit you increase voltage (or decrease resistance). Ohm's Law: Current = Voltage divided by resistance
Power consumed by an electrical appliance will increase with a reduction of applied voltage.
Ohm's Law states Voltage = Current x Resistance. Hence if voltage is increased and resistance is constant, current will increase proportionally to the rise in voltage.
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
If current increases, then voltage also has to increase, assuming that resistance stay relatively the same. Power will also increase. Since power is the product of voltage and current, then the power increase would be the square of the voltage or current change.
The cooker uses electrical power to generate heat. It takes a large amount of electrical power to generate a large amount of heat. Since power is current draw times operating voltage, you need a low resistance to draw a large current since you can't increase the operating voltage. Mathematically speaking, Ohm's Law (E=IR) gives the relationship between voltage (E), current (I) and resistance (R). Since power (P=EI) is what is produced and is related to the heat produced, rearranging the elements gives a second equation that relates power to voltage and resistance (P=E2/R). So you can see that for a constant voltage (E), a low R value gives a high power (P) value.
capacitors
A Generator is electrical machine which produces electrical current and voltage..