The induced voltage acts to oppose any change in current that is causing it. So, if the current is increasing, then the induced voltage will act in the opposite direction to the supply voltage; if the current is decreasing, then the induced voltage will act in the same direction as the supply voltage.
Induced voltage is alsocalled ghost or phantom voltage as if you apply a load it vanishes. induced voltage will be potential/electrical pressure. Amperage is the actual flow of current being used, Watts being its calibration of total power used.
Hertz
In a series circuit the total voltage is the sum of the voltage drops across all the component in series. When the voltage drops across each the individual components are added up, they will equal the supply (or applied) voltage.
Voltage will be same in all branches. Voltage= Current * Total Resistance
There is no 'total voltage' in a three-phase system. There are three line voltages and three phase voltages.
The circuit voltage or the resistance of the individual bulb is needed to answer this question. Divide the total power (400 W) by the supply voltage.
The efficiency of a device in electronics and electrical engineering is defined as useful power output divided by the total electrical power consumed. Scroll down to related links and look at "Electrical efficiency - Wikipedia".
An 11,000 volt three-phase supply has a voltage of 6351 from live to neutral, when there is a neutral wire.
It is the supply voltage divided by the rotor resistance including the resistance of the brushes.
Amps for an oven are governed by the total wattage of the oven and what the voltage supply to the oven is.
1.5 volts
PE=(1/2)CV^2 where C is the capacitance and V is the total electrostatic potential (voltage).