That question hurt my bobble sack.....
In general, cable electrons don't get along with battery electrons... electrons are electrons; it doesn't matter if they're in a cable, or a battery, they are the same. Batteries are always DC, but the electricity flowing through a cable does not necessarily have to be - it can be AC.
Current measures the flow of electrons through a circuit and voltage basically measure the amount of available electrons.
A circuit with a 2 ohm resistor and a 4 ohm resistor in series with a 12 volt battery will have 2 amps flowing through each resistor. The current is the same in each resistor because they are in series, and a series circuit has constant current throughout.
A fuse.
A very good analogy is that of a fluid (water) flowing in pipes. Provided there is a voltage (pressure) then the electrons (the pints of water) can flow round the circuit. In the case of electrical circuits, the circuit must be complete from one terminal of the supply, through the circuit, to the other end of the supply. Capacitors around the circuit can be represented by storage along the circuit. Resistors in the circuit can be represented by narrowing the pipe.
In a simple flashlight circuit, electrons flow from the negative terminal of the battery through the metal conductor to the light bulb, where they pass through the filament, creating light. The electrons then continue flowing through the metal conductor to the positive terminal of the battery, completing the circuit.
Amperage.
Electrical energy travels through a circuit by flowing through a closed loop of conductive materials, such as wires. The energy is generated by a power source, such as a battery or generator, and is carried through the circuit by the movement of electrons. The flow of electrons creates a current that powers the devices connected to the circuit.
No. For electrons to flow, you need a current.
Electricity flows from a battery through a circuit when a complete path is created for the electrons to move. Electrons move from the negative terminal of the battery through the circuit to the positive terminal. This flow of electrons creates an electric current that powers the components in the circuit.
Resistors in a circuit reduce the flow of current by impeding the movement of electrons. This causes a decrease in the overall current flowing through the circuit.
A circuit
Yes. Current consists of electrons flowing in a circuit.
A battery creates an electric field within the circuit, which applies a force on the electrons, causing them to move. This movement of electrons creates an electric current that flows through the circuit, allowing electrical devices to function.
A device that moves electrons along a path is called a circuit. In a circuit, electrons flow from the negative terminal of a battery, through the components in the circuit, and back to the positive terminal of the battery, creating electrical energy.
because they only form a single path then the electron flow in one way if they have parallel the electron go between lines and go off. i order to have eletri flow you need to have single line.
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