There's no correspoindence, correlation, or connection between those
characteristics. A series circuit or a parallel circuit may have high or low
voltages.
The circuit by itself doesn't determine the voltage of the power supply. If there's some additional requirement that goes along with the circuit, such as "The current through the circuit must be XYZ amperes.", or "The voltage across the third component from the north end of the circuit shall be ABC volts,", then that requirement would dictate the power supply voltage. But in order to calculate it, you'd need the knowledge of every component in the series circuit.
A parellel circuit does not fail if one light dies. In a series circuit, it's broken if one light fails (like the old style Christmas lights). See link for example...
Simply add all of the component's resistances together and that will give you circuits total resistance. If you're dealing with a 'series-parallel', or 'parallel' circuit, the equations will change, but in a simple series circuit, the total resistance is just the total of all the component's resistance.
They are not exactly the same. A series circuit is one complete circuit with not other pathways. A parallel circuit is a complete circuit with multiple pathways . The resistance of a parallel circuit is completely different from the resistance of a series circuit. Therefore, this affects the voltage and the current produced,
Current is the same at all points in a series circuit.No statement can be made concerning voltage. Voltage is a potential differencebetween two points, and you haven't specified a point for reference.
Yes
At the point of highest resistance.
By Kirchhoff's Voltage Law, the sum of the voltage drops around the series circuit will equal the voltage applied to the circuit.
Voltage drop due to the resistance present in the series circuit causes voltage split over a series circuit.
i think first one should find out the series resistance that is R1+R2+R3 and after that parellel resistance that is 1/R1+1/R2+1/R3 and after that add the series resistance and parellel resistance to get the total resistance
Voltage is an electrical force or pressure that causes current to flow in a circuit. It is an additive in a series circuit.
there is 120V across the circuit.
well current in a series circuit wont change so a voltage series is also a current series probablyAnswerYour question makes little sense. Applying a voltage across a series circuit results in current through that circuit, so what exactly are you asking?
In a RLC series circuit the Q factor magnify the voltage to the circuit.
there is 120V across the circuit.
For a series circuit, the applied voltage equals the sum of the voltage drops
series other name current series and parallel is voltage