A single load doesn't really constitute either a series or a parallel circuit. You could argue that the lamp is in series with the supply, because the same current flows through both. But you could also argue that it is in parallel with the supply, as it shares the same voltage. So the terms 'series' and 'parallel' are only really used when to describe how two or more loads are connected to the supply.
It is a series circuit, where all the lamps (for instance) is on the same wire. If one lamp fails, the rest lamps will also go out.
There will be no change, because it is a parallel circuit.
A circuit that has only one path for the current is called a series circuit. In a series circuit, the components are connected end-to-end, creating a single pathway for the flow of electricity. This means that the current passing through each component is the same, making series circuits useful for applications where a consistent current is needed.
Series and parallelImproved AnswerThere are four categories of circuit: series, parallel, series-parallel, and complex. 'Complex' is a 'catch-all', used to describe circuits that are not series, parallel, or series-parallel. An example of a 'complex' circuit is a Wheatstone Bridge circuit.
A simple circuit consists of a source of electro motive force ( EMF or voltage V ) This could be a battery,dynamo or solar cell. The circuit should do something, like light a lamp. For the lamp to glow there must be a flow of electrons called an electric current measure in Amperes (I). For the current to flow the circuit must form a closed loop, like a daisy chain. A switch is a device that breaks this loop and controls the state of the circuit. Closed circuit, switch closed, = lamp on Open circuit, switch not closed = lamp off
It is a series circuit. In a series circuit, the components are connected in a single path so if one lamp is removed, the circuit is broken and the other lamp will not receive electricity.
No. Series circuit has 1 path to flow.
A lamp A fan and a bunch of other thingsAnswerThe classic example of a series circuit is a string of Christmas-tree lights. They are connected in series if, when one lamp burns out, all the lights go out.
A series circuit is a simple circuit, a circuit that simply goes round in a loop without any branches off. Often, these circuits have just a battery, an appliance and a switch. A lamp is an example of one of these.
It is a series circuit, where all the lamps (for instance) is on the same wire. If one lamp fails, the rest lamps will also go out.
In a parallel circuit, Voltage is constant through out the circuit. Thus, the voltage across each lamp is 6-volts.
The voltage drop across each lamp would decrease as you add more lamps to a series circuit. This is because the total voltage in the circuit is divided evenly among the lamps, so each lamp receives less voltage as more are added.
The lamps are wired in series.
In a series circuit, the total resistance is the sum of the individual resistances. So, the total resistance of the 3.0 lamp and 6.0 lamp connected in series would be 3.0 + 6.0 = 9.0 ohms.
A series circuit pretty much runs in one direction, with each item which uses a load on that circuit one after another in a series. Should one load go out (a lamp, for example) then the entire series is defunct. A parallel circuit has more than one way to run, has a parallel or tandem circuit, so that if one load (our lamp, again) should fail, the electricity has another path (or more) to get to other loads on the circuit.
Assuming the new lamp is in series, the ammeter reading falls because the total resistance has increased. By how much depends on how the lamp resistance depends on voltage. If the lamp is added in parallel to the first, then the ammeter reading doubles.
Because the cell voltage in series is combined to achieve rated lamp voltage, at the same time ensure sufficient power.