Electricity: Difference between revisions
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'''Electricity''' provides the power for [[computer]]s, [[microwave oven]]s, and more generally anything that needs to be plugged in to work. It is produced by [[battery|batteries]] is used in portable devices such as [[flashlight]]s and [[walkman]]s. Electricity is also the cause of [[lightning]]. Another phenomenon caused by electricity is that if you rub a balloon against a sweater and then hold it close to your hair, the balloon will attract your hair. | '''Electricity''' is the flow or presence of electric charge. Electricity provides the power for [[computer]]s, [[microwave oven]]s, and more generally anything that needs to be plugged in to work. It is produced by [[battery|batteries]] is used in portable devices such as [[flashlight]]s and [[walkman]]s. Electricity is also the cause of [[lightning]]. Another phenomenon caused by electricity is that if you rub a balloon against a sweater and then hold it close to your hair, the balloon will attract your hair. | ||
In a flashlight, the batteries produce an [[electric current]] that is transported to a [[light bulb]]. The current provides the power for the light bulb to produce light, and is then transported back to the battery. The loop formed by the battery, the light bulb, and the connections between them is an [[electric circuit]]. This needs to be a closed loop; if one of the connections is broken or the light bulb is removed, then no current will run. | In a flashlight, the batteries produce an [[electric current]] that is transported to a [[light bulb]]. The current provides the power for the light bulb to produce light, and is then transported back to the battery. The loop formed by the battery, the light bulb, and the connections between them is an [[electric circuit]]. This needs to be a closed loop; if one of the connections is broken or the light bulb is removed, then no current will run. | ||
A [[power plant]] produces a lot of electricity. Big cables transport this electricity over miles to houses and factories, eventually bringing it to the [[electricity socket]]s in your house. If you plug in the television, then an electric current can run through the cable to the television, providing the power which it needs. The current returns through a different wire in the same cable to the socket, thus closing the circuit. An electricity plug thus has at least two pins, one for bringing the current from the socket to the television and the other one for returning it. | A [[power plant]] produces a lot of electricity. Electrical [[transformers]] translate this into a high-voltage, low-current electricity for more efficient long-distance transport. Big cables transport this electricity over miles to houses and factories. Additional transformers reduce this to a lower voltage (120 [[volt]]s in North America and 240 Volts in Europe) for safety, eventually bringing it to the [[electricity socket]]s in your house. If you plug in the television, then an electric current can run through the cable to the television, providing the power which it needs. The current returns through a different wire in the same cable to the socket, thus closing the circuit. An electricity plug thus has at least two pins, one for bringing the current from the socket to the television and the other one for returning it. | ||
Electric current is caused by the movement of [[electron]]s, very small particles with a negative [[electric charge]] that appear in all materials. In some materials, like wood, the electrons stick to their place and thus electric current cannot run through these materials or only with great difficulties. Such materials are called '' | Electric current is caused by the movement of [[Electron|electron]]s, very small particles with a negative [[electric charge]] that appear in all materials. In some materials, like wood, the electrons stick to their place and thus electric current cannot run through these materials or only with great difficulties. Such materials have a high [[resistance]] and are called ''insulators''. [[Conductor]]s are materials, like copper, in which the electrons can move around relatively freely; they can carry a current. [[Semiconductor|Semiconductors]] can act either as conductors or as insulators depending on circumstance. | ||
Electricity is closely related to [[magnetism]]. Physicists usually study both phenomena together, and they call the combination [[electromagnetism]]. Electromagnetism is one of the four [[fundamental force]]s (the other are [[gravity]], the [[weak nuclear force]] and the [[strong nuclear force]]). | Batteries produce an electric current which always flows in one direction, which is called [[direct current]] (DC). No good method for changing voltages of direct current existed in the nineteenth century, so direct current power plants had to be located within a few miles of consumers. An alternative approach, ''alternating current'' (AC), has electricity switching direction many times per second. Voltages of alternating current can be changed easily with transformers, so alternating current can be carried long distances easily and won out over DC. | ||
Electricity is closely related to [[Magnetism|magnetism]]. [[Maxwell's equations]] mathematically describe both phenomena. Physicists usually study both phenomena together, and they call the combination [[Electromagnetism|electromagnetism]]. Electromagnetism is one of the four [[fundamental force]]s (the other are [[Gravity|gravity]], the [[weak nuclear force]] and the [[strong nuclear force]]). | |||
Revision as of 16:48, 9 January 2008
Electricity is the flow or presence of electric charge. Electricity provides the power for computers, microwave ovens, and more generally anything that needs to be plugged in to work. It is produced by batteries is used in portable devices such as flashlights and walkmans. Electricity is also the cause of lightning. Another phenomenon caused by electricity is that if you rub a balloon against a sweater and then hold it close to your hair, the balloon will attract your hair.
In a flashlight, the batteries produce an electric current that is transported to a light bulb. The current provides the power for the light bulb to produce light, and is then transported back to the battery. The loop formed by the battery, the light bulb, and the connections between them is an electric circuit. This needs to be a closed loop; if one of the connections is broken or the light bulb is removed, then no current will run.
A power plant produces a lot of electricity. Electrical transformers translate this into a high-voltage, low-current electricity for more efficient long-distance transport. Big cables transport this electricity over miles to houses and factories. Additional transformers reduce this to a lower voltage (120 volts in North America and 240 Volts in Europe) for safety, eventually bringing it to the electricity sockets in your house. If you plug in the television, then an electric current can run through the cable to the television, providing the power which it needs. The current returns through a different wire in the same cable to the socket, thus closing the circuit. An electricity plug thus has at least two pins, one for bringing the current from the socket to the television and the other one for returning it.
Electric current is caused by the movement of electrons, very small particles with a negative electric charge that appear in all materials. In some materials, like wood, the electrons stick to their place and thus electric current cannot run through these materials or only with great difficulties. Such materials have a high resistance and are called insulators. Conductors are materials, like copper, in which the electrons can move around relatively freely; they can carry a current. Semiconductors can act either as conductors or as insulators depending on circumstance.
Batteries produce an electric current which always flows in one direction, which is called direct current (DC). No good method for changing voltages of direct current existed in the nineteenth century, so direct current power plants had to be located within a few miles of consumers. An alternative approach, alternating current (AC), has electricity switching direction many times per second. Voltages of alternating current can be changed easily with transformers, so alternating current can be carried long distances easily and won out over DC.
Electricity is closely related to magnetism. Maxwell's equations mathematically describe both phenomena. Physicists usually study both phenomena together, and they call the combination electromagnetism. Electromagnetism is one of the four fundamental forces (the other are gravity, the weak nuclear force and the strong nuclear force).