Electric Current. Current and Voltage Difference

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Current and Voltage Difference The net movement of electric charges in a single direction is an electric current. In a metal wire, or any material, electrons are in constant motion in all directions. As a result, there is no net movement of electrons in one direction.

Current and Voltage Difference When an electric current flows in the wire, electrons continue their random movement, but they also drift in the direction that the current flows. Electric current is measured in amperes.

Voltage Difference In some ways, the electric force that causes charges to flow is similar to the force acting on the water in a pipe. Water flows from higher pressure to lower pressure.

Voltage Difference In a similar way, electric charge flows from higher voltage to lower voltage. A voltage difference is related to the force that causes electric charges to flow. Voltage difference is measured in volts.

Electric Circuits This figure shows an electric current doing work by lighting a lightbulb. A closed path that electric current follows is a circuit. If the circuit is broken by removing the battery, or the lightbulb, or one of the wires, current will not flow.

Batteries To keep an electric current continually flowing in the electric circuit a voltage difference needs to be maintained in the circuit. A battery can provide the voltage difference that is needed to keep current flowing in a circuit. Current flows as long as there is a closed path that connects one battery terminal to the other battery terminal.

Dry-Cell Batteries A cell consists of two electrodes surrounded by a material called an electrolyte. The electrolyte enables charges to move from one electrode to the other.

Dry-Cell Batteries One electrode is the carbon rod, and the other is the zinc container. The electrolyte is a moist paste containing several chemicals. The cell is called a dry cell because the electrolyte is a moist paste, and not a liquid solution.

Wet-Cell Batteries A wet cell contains two connected plates made of different metals or metallic compounds in a conducting solution. A wet-cell battery contains several wet cells connected together.

Lead-Acid Batteries Most car batteries are lead-acid batteries. A lead-acid battery contains a series of six wet cells made up of lead and lead dioxide plates in a sulfuric acid solution. The chemical reaction in each cell provides a voltage difference of about V, giving a total voltage difference of 1 V.

Resistance As the electrons flow through the filament in a light bulb, they bump into the metal atoms that make up the filament. In these collisions, some of the electrical energy of the electrons is converted into thermal energy. Eventually, the metal filament becomes hot enough to glow, producing radiant energy that can light up a dark room.

Resisting the Flow of Current Resistance is the tendency for a material to oppose the flow of electrons, changing electrical energy into thermal energy and light. With the exception of some substances that become superconductors at low temperatures, all materials have some electrical resistance. Resistance is measured in ohms (Ω).

Temperature, Length, and Thickness The electric resistance of most materials usually increases as the temperature of the material increases. The resistance of an object such as a wire also depends on the length and diameter of the wire.

Temperature, Length, and Thickness The resistance of a wire, or any conductor, increases as the wire becomes longer. The resistance also increases as the wire becomes thinner.

The Current in a Simple Circuit A simple electric circuit contains a source of voltage difference, such as a battery, a device, such as a lightbulb, that has resistance, and conductors that connect the device to the battery terminals. When the wires are connected to the battery terminals, current flows in the closed path.

The Current in a Simple Circuit The voltage difference, current, and resistance in a circuit are related. If the voltage difference doesn't change, decreasing the resistance increases the current in the circuit. If the resistance doesn't change, increasing the voltage difference increases the current.

Ohm's Law According to Ohm's law, the current in a circuit equals the voltage difference divided by the resistance. If I stands for the electric current, Ohm's law can be written as the following equation.

Ohm's Law Ohm's law provides a way to measure the resistance of objects and materials. Ohm s law can be written as: An object is connected to a source of voltage difference and the current flowing in the circuit is measured. The object's resistance then equals the voltage difference divided by the measured current.

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