Copyright © Philip M. Parker, INSEAD. Terms of Use.
| Domain | Definition |
Aerospace | The electrical polarization of a horizontal conducting sheet of limited extent, when that sheet moves laterally through a magnetic field having a component vertical to the sheet.The Hall effect is important in determining the behavior of the electrical currents generated by winds in the lower ionosphere. (references) |
Electrical Engineering | The production in a conductor or in a semiconductor of an electric field strength proportional to the vector product of the current density by the magnetic flux density. Source: European Union. (references) |
Source: compiled by the editor from various references; see credits. | |
(From Wikipedia, the free Encyclopedia)
The Hall Effect (discovered by Dr. Edwin Hall in 1879) states that when a magnetic field is applied perpendicular to a thin sheet of conducting or semiconducting material (the Hall element) through which current is flowing, a potential difference (voltage) will be created on opposite edges of the Hall element. The ratio of the voltage created to the amount of current is known as the Hall resistance, and is a characteristic of the material in the element.
The Hall effect comes about due to the nature of the current flow in the conductor. Current consists of many small charge-carrying "particles" (typically electrons) which see a force due to the magnetic field. Some of these charge elements end up forced to the sides of the conductors, where they create a pool of net charge. This is only notable in larger conductors where the separation between the two sides is large enough.
One important feature of the Hall effect is that it differentiates between positive charges moving in one direction and negative charges moving in the opposite. The Hall effect offered the first real proof that electric currents in metals are carried by moving electrons, not by protons. Interestingly enough, the Hall effect also showed that in some substances (especially semiconductors), it is more appropriate to think of the current as positive "holes" moving rather than negative electrons.
By measuring the Hall voltage across the element, one can determine the strength of the magnetic field applied. So called Hall Effect Sensors are readily available from a number of different manufacturers. The most common types are analog (or Linear) Hall effect sensors, which output a voltage that is proportional to the applied magnetic field, and digital Hall effect sensors, which are often used as magnetically controlled switches -- they turn on or off when the applied magnetic field reaches a certain level. These Hall effect switches generally consist of a Hall Effect Sensor, one or more logic gates and a transistor used to switch the electric current on or off.
Alternately, by applying a known magnetic field (typically from a permanent magnet) one can use the Hall voltage to instead measure the current through the element. This can be particularly useful as it allows one to measure the current in a conductor remotely through induction. This is widely used commercially in "live wire detectors", which allow you to quickly identify which wires are carrying current without plugging into them.
Links:
See also:
Quantum Hall effect
Source: adapted by the editor from Wikipedia, the free encyclopedia under a copyleft GNU Free Documentation License (GFDL) from the article "Hall effect."
Crosswords: HALL EFFECT |
| Specialty definitions using "HALL EFFECT": Hall angle, Hall detector, Hall effect, Hall effect magnetometer, Hall plate, Hall probe. (references) |
| Domain | Title |
Books | |
Source: compiled by the editor from various references; see credits. | |
Expression using "HALL EFFECT": Hall effect magnetometer. Additional references. | |
| Source: compiled by the editor from various references; see credits. |
| The following statistics estimate the number of searches per day across the major English-language search engines as identified by various trade publications. Hyperlinks lead to commercial use of the expression at Amazon.com. |
| Expression | Frequency per Day |
hall effect | 174 |
hall effect sensor | 88 |
hall effect device | 5 |
hall effect current sensor | 4 |
quantum hall effect | 3 |
| Source: compiled by the editor from various references; see credits. | |
| Language | Translations for "HALL EFFECT"; alternative meanings/domain in parentheses. | ||||||||||||||||||||||
Danish | Hall-effekt. (various references) | ||||||||||||||||||||||
Dutch | hall-effect. (various references) | ||||||||||||||||||||||
Finnish | Hall-ilmiö. (various references) | ||||||||||||||||||||||
French | effet Hall. (various references) | ||||||||||||||||||||||
German | Halleffekt. (various references) | ||||||||||||||||||||||
Greek | φαινόμενο Χωλ. (various references) | ||||||||||||||||||||||
Italian | effetto Hall. (various references) | ||||||||||||||||||||||
Pig Latin | allhay effectay efeito de Hall. (various references) efecto Hall. (various references) halleffekt. (various references) | ||||||||||||||||||||||
Scrabble® Enable2K-Verified Anagrams | |
| Words within the letters "a-c-e-e-f-f-h-l-l-t" | |
-3 letters: chelate, felafel, fellate, hellcat, leaflet. | |
-4 letters: affect, callet, cellae, chalet, chelae, efface, effect, facete, fellah, fleche, fleech, fletch, haffet, lethal, thecae, thecal. | |
-5 letters: allee, cella, chafe, chaff, cheat, chela, cleat, cleft, eclat, elate, elect, facet, fecal, fella, fetal, fetch, fleet, latch, lathe, leach, leech, letch, lethe, tache, teach, telae, theca. | |
| Source: compiled by the editor from various references; see credits. SCRABBLE® is a registered trademark. All intellectual property rights in and to the game are owned in the U.S.A and Canada by Hasbro Inc., and throughout the rest of the world by J.W. Spear & Sons Limited of Maidenhead, Berkshire, England, a subsidiary of Mattel Inc. Mattel and Spear are not affiliated with Hasbro. | |
Hexadecimal (or equivalents, 770AD-1900s) (references)48 41 4C 4C 45 46 46 45 43 54 |
| Leonardo da Vinci (1452-1519; backwards) (references)
|
Binary Code (1918-1938, probably earlier) (references)01001000 01000001 01001100 01001100 00100000 01000101 01000110 01000110 01000101 01000011 01010100 |
HTML Code (1990) (references)H A L L   E F F E C T |
ISO 10646 (1991-1993) (references)0048 0041 004C 004C 0045 0046 0046 0045 0043 0054 |
Encryption (beginner's substitution cypher): (references)423546462394040393754 |
| 1. Crosswords 2. Usage: Commercial 3. Expressions 4. Expressions: Internet | 5. Translations: Modern 6. Anagrams 7. Orthography 8. Bibliography |
Copyright © Philip M. Parker, INSEAD. Terms of Use.
