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Any voltage that is fed into or "applied" to an electrical circuit is referred to as an "applied voltage".
Resistance is a concept used for DC. the current through a resistance is in phase with the applied voltage Reactance is used for AC the current through a inductive reactance lags the applied voltage by 90 degrees. the current through capacitive reactance leads the applied voltage by 90 degrees. the net reactance is the difference between inductive and capacitive reactance
There is a lot of variation in the applied DC voltages that operate an electrostatic precipitator (ESP). Some work on a few thousand volts (a few kV), while big industrial units might run on upwards of 100,000 volts (100 kV).
A voltage, or potential difference, is what causes current to flow through a circuit. So all devices (called 'loads') require a voltage applied to them.
The voltage is greater than the applied voltage, why?
An electrical potential difference (aka. a difference in applied voltage), and a conductor / circuit. Electrons would help too.
No current flows when the applied voltage is zero.
For a series circuit, the applied voltage equals the sum of the voltage drops
Current is directly proportional to applied voltage. Ohm's law.
sending voltage means voltage applied to source side.....
The applied voltage is 53+28 = 81V.
The voltage source that is applied to them is the difference between AC and DC light bulbs.