From the standpoint of basic functionality, you can put the switch anywhere. In a series circuit, there is only one path for current flow. If you open the switch, you interrupt that pathway and turn the circuit "off."
There may be practical reasons to put the switch in one place or another, however. Sometimes it's put in a particular place in the circuit for manufacturing reasons. In other circuits, safety may dictate that you put the switch in a particular place: in a ground-referenced circuit for example, you may want to put the switch so that one side is at the ground point.
In a modern home you use parallel circuit's. The reason why they are parallel circuit and not series is For example: say your kitchen light goes off, if that light goes off the others in your house won't. They also use parallel circuit in schools. However, when there is a switch in the circuit, that switch is in series with the load, so you could say that electrical wiring is arranged in series-parallel.
Switch
A switch in a circuit will quickly allow you to break the circuit, without changing the wiring. For example, a light switch. By turning a light switch off, you are breaking the circuit and, thus, turning the light off.
No. In a series circuit, current is the same, by Kirchoff's current law, at every point in the circuit, so you either have current at every point, or you have no current at every point.
Two receptacles on a branch circuit, each in parallel, both in series with the circuit breaker. The blower motor, ignition transformer, and oil solenoid on an oil burner, each in parallel, all in series with the acquastat (water temperature control switch).
Yes, the placement of the switch does matter in a series circuit. Placing it before a component will interrupt the flow of current to the entire circuit, while placing it after a component will only interrupt the current to that specific component.
Switches used in electrical circuits are wired in series with either a parallel or series load. In parallel loads, the switch is upstream from the parallel circuit, so that the switch will shut off all of the parallel circuits.
usually in series
A switch.
No. Since the switch is in series with the circuit, opening it blocks the current flow through the circuit, turning it off.
Removing a bulb - or opening the switch - breaks the flow of current in a series circuit.
A voltage or current source in series with a circuit breaker or fuse in series with a switch in series with a light bulb.
For an electrical circuit to keep going, it cannot be interrupted. When the switch is adjusted, the electrical flow is interrupted. Move the switch again and the flow is restored. Without a switch a circuit is no longer considered a complete circuit. Simple fifth grade science.
Because The opening of any switch in a series circuit will open the circuit and stop the flow of current to the load
The most common form of a series circuit in a house is a circuit breaker (optionally in series with an on-off switch) in series with a load, usually a light bulb.
When checking continuity in a series circuit, you put your leads in series with the circuit or device being checked. You also make sure the circuit is deenergized and that it is open.
in a series circuit or it will not work. Put it after the bulb