Galvanometer - translation to γερμανικά
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Galvanometer - translation to γερμανικά

INSTRUMENT TO MEASURE ELECTRIC CURRENT
Tangent galvanometer; D'Arsonval meter; D'Arsonval movement; Galvo; Null detector; Null indicator; Astatic galvanometer; D'arsonval meter movement; D'Arsonval meter movement; D'Arsonval galvanometer; Schweigger multiplier; Taut band movement
  • An early D'Arsonval galvanometer showing magnet and rotating coil
  • An early d'Arsonval moving coil galvanometer
  • camera]], together with a [[photoresistor]] (seen in the hole on top of the leftpart).
  • D'Arsonval/Weston galvanometer (ca. 1900). Part of the magnet's left [[pole piece]] is broken out to show the coil.
  • Closed-loop galvanometer-driven laser scanning mirror
  •  Diagram of D'Arsonval/Weston type galvanometer. As the current flows from '''+''' through the coil (the orange part) to '''−''', a magnetic field is generated in the coil. This field is counteracted by the permanent magnet and forces the coil to twist, moving the pointer, in relation to the field's strength caused by the flow of current.
  • Thomson mirror galvanometer, patented in 1858.
  • Weston galvanometer in portable case

Galvanometer         
n. galvanometer, instrument that measures electric currents
galvanometer      
n. Galvanometer (Strommesser)
galvanometrisch      
galvanometric, of the measurement of electrical currents

Ορισμός

Galvanometer
An instrument for measuring current strength and sometimes for measuring inferentially potential difference, depending on the action of a magnetic field established by the current, such action being exerted on a magnetic needle or its equivalent. A current passing through a conductor establishes circular lines of force. A magnetic needle placed in their field is acted on and tends to place itself parallel with the lines, in accordance with the principles of current induction. (See Induction, Electro-magnetic.) A common compass held near a conductor through which a current is passing tends to place itself at right angles to such conductor. For a maximum effect the conductor or the part nearest the needle should lie in the magnetic meridian. If at right angles thereto its action will only strengthen the directive force of the earth's induction or magnetic field, as the needle naturally points north and south. Such combination is virtually a galvanometer. A typical galvanometer comprises a flat coil of wire placed horizontally within which a magnetic needle is delicately poised, so as to be free to rotate with the least possible friction. The needle may be supported on a sharp point like a compass needle, or may be suspended by a long fine filament. It should be covered by a glass plate and box, or by a glass shade. Finally a graduated disc may be arranged to show the amount of deflection of the needle. In use the apparatus is turned about until the needle, as acted on by the earth's magnetic field, lies parallel to the direction of the coils of wire. On passing a current through the coil the needle is deflected, more or less, according to its strength. By using exceedingly fine wire, long enough to give high resistance, the instrument can be used for very high potentials, or is in condition for use in determining voltage. By using a coil of large wire and low resistance it can be employed in determining amperage. In either case the deflection is produced by the current. The needle is often placed above or below the coil so as only to receive a portion of its effect, enough for all practical purposes in the commoner class of instruments. The galvanometer was invented by Schweigger a short time after Oersted's discovery, q. v.

Βικιπαίδεια

Galvanometer

A galvanometer is an electromechanical measuring instrument for electric current. Early galvanometers were uncalibrated, but improved versions, called ammeters, were calibrated and could measure the flow of current more precisely.

A galvanometer works by deflecting a pointer in response to an electric current flowing through a coil in a constant magnetic field. Galvanometers can be thought of as a kind of actuator.

Galvanometers came from the observation, first noted by Hans Christian Ørsted in 1820, that a magnetic compass's needle deflects when near a wire having electric current. They were the first instruments used to detect and measure small amounts of current. André-Marie Ampère, who gave mathematical expression to Ørsted's discovery, named the instrument after the Italian electricity researcher Luigi Galvani, who in 1791 discovered the principle of the frog galvanoscope – that electric current would make the legs of a dead frog jerk.

Galvanometers have been essential for the development of science and technology in many fields. For example, in the 1800s they enabled long-range communication through submarine cables, such as the earliest transatlantic telegraph cables, and were essential to discovering the electrical activity of the heart and brain, by their fine measurements of current.

Galvanometers have also been used as the display components of other kinds of analog meters (e.g., light meters and VU meters), capturing the outputs of these meters' sensors. Today, the main type of galvanometer still in use is the D'Arsonval/Weston type.