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Series has one path. Parallel two or more paths.
Parallel circuit
You have to have a charged particle which is free to move, and an electromotive force for a current to flow.
When the two ends of the conductor are connected to a source of EMF, electricity flows through it.
the bulbs would be very bright seeing as the two or more light bulbs have very easy excusable paths for electricity to flow and get to the light bulbAnswerBecause the voltage across each branch of a parallel circuit is the same, each lamp will be subject to its rated voltage and, therefore, will operate at its rated power output.
In a electrical circuit where there are two paths for current to flow, one of high resistance and one of low, the electricity will flow in both paths, in inverse proportion to the resistance in the two paths. For example, If a voltage of 10 volts is applied simultaneously to two resistances, one of 100 ohms and one of 1000 ohms, then by Ohm's Law the current in the former will be 10/100 = 0.1 amps and the current in the latter 10/1000 = 0.01 amps.
Series has one path. Parallel two or more paths.
yes
Parallel circuit
A circuit in which electricity only flows in one path is called a series circuit.
There are two types of Electricity, Static Electricity and Current Electricity. Static Electricity is made by rubbing together two or more objects and making friction while Current electricity is the flow of electric charge across an electrical field.not sure of answer but hopefully its correct
In a parallel circuit, the current flow is independent in each branch.
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At least two paths. Current will divide between them according to their relative impedances.
You have to have a charged particle which is free to move, and an electromotive force for a current to flow.
No. The two are measurements of different things. Volts are a measure of electromotive force (the force that makes electricity want to flow. To quote a common analogy, compare volts to water pressure. The higher the voltage (pressure), the more energy stored waiting for the opportunity to flow. Amperage is a measure of the rate of electricity flow. Compare amps to water flow rate (such as gallons per minute). The higher the amperage (flow rate), the more electricity (water) flows in a given amount of time.
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