Zero. The sum of the voltage drops across all loads plus the voltage rises due to sources in a complete circuit must equal zero.
series-parallel curcuit
A flashlight is an example of a series circuit; a battery in series with a switch in series with a bulb.
unregulated voltage minus series regulator transistor drop.
Voltage drop due to the resistance present in the series circuit causes voltage split over a series circuit.
By Kirchhoff's Voltage Law, the sum of the voltage drops around the series circuit will equal the voltage applied to the circuit.
series-parallel curcuit
Kirchoff's Voltage Law: The sum of the voltage drops across all elements in a series circuit add up to zero. If you know the voltage drops across all but one element, and you know the voltage rise across the source, then you can easily calculate the remaining drop.
a parallel circuit is in lines and a series circuit is one circle
yes. a parallel circuit is made up of many series curcuits. so therefore, without the series curcuit you could not have a parallel curcuit.
A flashlight is an example of a series circuit; a battery in series with a switch in series with a bulb.
unregulated voltage minus series regulator transistor drop.
Voltage drop due to the resistance present in the series circuit causes voltage split over a series circuit.
By Kirchhoff's Voltage Law, the sum of the voltage drops around the series circuit will equal the voltage applied to the circuit.
In a series circuit, just add all the individual resistances, to get the total resistance.
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.
Yes. Kirchoff's Voltage Law states that the signed sum of the voltage drops going around a series circuit is zero. Thus, if you know all but one, you can figure it out. You simply add what you know up, and what is left is the last drop. Don't forget to be consistent in your use of signs. If, for instance, you show a voltage or current source as a voltage rise, then it must be considered to be a negative voltage drop. Or vice versa, as the case may be.
In a series generator, as load is added, output voltage increases.