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* The most common applications for series circuits is in Christmas tree lights and putting a fuse in series with delicate electronic equipment. * Each component in a circuit causes a voltage drop. Therefore, the series circuit should only be used where the voltage drop does not interfere with the proper functioning of the components in the circuit. * On the other hand, where all of the compenents in a circuit require the same supply voltage, then a parelell circuit should be used.
That is described as a circuit in series, as opposed to a circuit in parallel, in which there is more than one loop.
A series circuit/
Both series and parallel circuits are used What_types_of_circuits_are_used_in_homes. If the circuit is a dedicated circuit which means that there is only one device in the circuit, then it is a series circuit. All the rest will be classed as parallel circuits.
If there is only one fan in the circuit then it is in a series circuit. If there is more that one fan then they will be connected in a parallel configuration.
A circuit can be arranged in either a series or parallel configuration. In a series circuit, the components are connected in a single path, so the same current flows through each component. In a parallel circuit, the components are connected in multiple paths, allowing different currents to flow through each component.
There is no current at all in the series circuit until the last component is in place, and the order in which they're arranged in the series circuit has no effect on the magnitude of current.
Power dissipated by the entire series circuit = (voltage between its ends)2 / (sum of resistances of each component in the circuit). Power dissipated by one individual component in the series circuit = (current through the series circuit)2 x (resistance of the individual component).
The total resistance in a series circuit is determined by adding (summing) the individual resistances of each component in the circuit.
Assuming all of the individual batteries are the same voltage, if arranged in a parallel circuit the voltage is the same as any one battery. If arranged in a series circuit the voltage will be the sum (the total) of all of the batteries added together.
The two basic circuit types are series circuits and parallel circuits. In a series circuit, all the current flows through each component, and each one drops some of the applied voltage. In a parallel circuit, the applied voltage is dropped across each parallel component and current "splits" so some flows through each component.
For parallel circuit , each & every component shares 2 common connections . But for series circuit , each of them share 1 common connection .In electrical , each component has their own amount of current flowing through ( depending on the resistance of each ) and sharing the same voltage drop for parallel circuit . In case of series circuit , each component shares the same amount of current with each other & the voltage drop across each of them is different ( depending on their resistance ) .
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.
For parallel circuit , each & every component shares 2 common connections . But for series circuit , each of them share 1 common connection .In electrical , each component has their own amount of current flowing through ( depending on the resistance of each ) and sharing the same voltage drop for parallel circuit . In case of series circuit , each component shares the same amount of current with each other & the voltage drop across each of them is different ( depending on their resistance ) .
There's no correspoindence, correlation, or connection between those characteristics. A series circuit or a parallel circuit may have high or low voltages.
In a parallel circuit, all the external resistors are supplied the same potential difference which is not possible in a series circuit. Also in a parallel circuit, every resistor or component can be individually turned on or off without affecting the rest of the circuit.
The power dissipated by the complete circuit, no matter whether it's a series or parallel one, is the simple sum of the power dissipated by each component of the circuit.