Electric Circuits For a continuous flow of electrons, there must be a complete circuit with no gaps. Electric Circuits.

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Presentation transcript:

Electric Circuits For a continuous flow of electrons, there must be a complete circuit with no gaps. Electric Circuits

Any path along which electrons can flow is a circuit. A gap is usually provided by an electric switch that can be opened or closed to either cut off or allow electron flow. Electric Circuits

The water analogy is useful but has some limitations. A break in a water pipe results in a leak, but a break in an electric circuit results in a complete stop in the flow. Opening a switch stops the flow of electricity. An electric circuit must be closed for electricity to flow. Opening a water faucet, on the other hand, starts the flow of water. Electric Circuits

Most circuits have more than one device that receives electrical energy. These devices are commonly connected in a circuit in one of two ways, series or parallel. When connected in series, the devices in a circuit form a single pathway for electron flow. When connected in parallel, the devices in a circuit form branches, each of which is a separate path for electron flow. Electric Circuits

How can a circuit achieve a continuous flow of electrons? Electric Circuits