Current is directionally proportional to the applied voltage and inversely proportional to the resistance of the circuit.
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EMF (electromotive force) is measured in Volts. Current is measured in Amperes.
Like water pipes, EMF (or voltage) is the "push" or pressure in an electrical circuit. Current is like the gallons per minute . . . it is the "amount" of electrical flow.
Ohm's Law: voltage = current * resistance. If resistance is a constant, then voltage is directly proportional to current.
voltage depend on current and resistance r.p.m depend on no of pole
voltage is inversly proportional to speed speed and current are directly proportional to each other but voltage and current are directly proportional to each other..
In a capacitor ckt, current will be lead ahead from voltage by an angle 90 degree. Because for a capacitor the relationship between voltage and current is given as v=(jx)i , where v= voltage i= current jx=capacitive reactance
the network having different relation betwwen voltage and current for two possible direction of current.
how do you use ohms law express conductance in terms of current and voltage?
V=IR where V is the voltage (volts), I is current (amps) and R is resistance (ohms)
in passive circuit it depends on the type of load 1. if the load is purely resistive the voltage and current will be in phase 2.if the load is purely inductive the current lags the voltage by 90 dgree 3.if the load is purely capacitive the currents leads the voltage by 90 degree
Current flows in loops, voltage drops across elements. With relation to current, what flows in, must flow out, so no, current is not dropped across a resistor, it flows through a resistor and voltage is dropped across the resistor.
Diode is a non-ohmic conductor since in diodes current-voltage relation ship does't obey Ohm's law....the relationship between current and voltage is nonlinear here,...
Ohm's law gives the relationship between current, voltage, and resistance. The law states that I=V/R, where I is current, V is voltage, and R is resistance. Source: university digital fundamentals
q=cv so current changes with change in voltage keeping c constant