Neither is superior. Both a series and a parallel circuit have their place.
Because there is only a single path in series circuit and many paths in parallel circuit.
If a 'parallel' circuit has more than one load in its (not "it's"!) branches, then it is not a parallel circuit, but a series-parallel circuit! To resolve the circuit, you must first resolve the total resistance of the loads within each branch.
A circuit that has more than one path for the current to flow is a parallel circuit. The circuit must have two or more paths to be considered parallel. A circuit that has only one current path through multiple components is a series circuit.
In a parallel circuit (with more than one branch), the current will still flow in the other circuit(s) even if there is a break in one circuit. This is not so with a series circuit, since it does not have branches: if there is a break in the circuit, there is a break in the circuit.
they are used for more power than a series circuit so you should use this one.
no series circuit is best. Actually it depends on the application, neither is always better.
A parallel circuit is :)
No, series parallel, as it implies has components of the circuit configured in both series and parallel. This is typically done to achieve a desired resistance in the circuit. A parallel circuit is a circuit that only has the components hooked in parallel, which would result in a lower total resistance in the circuit than if the components were hooked up in a series parallel configuration.
In a series circuit, if any one bulb goes open the rest of the lights will go out. The current flow in a series circuit is common throughout the whole circuit. In a parallel circuit when one bulb goes open the rest remain on due to the configuration of a parallel circuit.
Series, because everything in the circuit is in series.
Because there is only a single path in series circuit and many paths in parallel circuit.
Because the cell voltage in series is combined to achieve rated lamp voltage, at the same time ensure sufficient power.
If a 'parallel' circuit has more than one load in its (not "it's"!) branches, then it is not a parallel circuit, but a series-parallel circuit! To resolve the circuit, you must first resolve the total resistance of the loads within each branch.
yes
A circuit that has more than one path for the current to flow is a parallel circuit. The circuit must have two or more paths to be considered parallel. A circuit that has only one current path through multiple components is a series circuit.
A parallel circuit is cheaper because it is simpler but it does carry less power than a circuit so your light will be less bright.
By definition, more than one. If a circuit has just one path, it is a series circuit, not parallel.