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  • {{#category_index:F|fixed field}}
    151 bytes (17 words) - 18:33, 16 January 2018
  • {{#category_index:F|free field}} Not relating to a preassigned or fixed field.
    192 bytes (23 words) - 18:00, 14 November 2017
  • {{#category_index:F|free-space field}} ...by conductors. See [[Special:MyLanguage/Dictionary:primary_field|''primary field'']].
    260 bytes (32 words) - 17:59, 14 November 2017
  • {{#category_index:G|geomagnetic field}} See [[Special:MyLanguage/Dictionary:magnetic_field_of_the_Earth|''magnetic field of the Earth'']].
    225 bytes (27 words) - 22:21, 25 January 2018
  • {{#category_index:G|geothermal field}}
    281 bytes (34 words) - 11:24, 7 June 2018
  • {{#category_index:I|International Geomagnetic Reference Field (IGRF)}} ...armonics. The IGRF is subtracted from observed data to determine the local field.
    436 bytes (55 words) - 20:37, 27 February 2017
  • {{#category_index:M|magnetic field}} ...w surrounds an electric current. <b>H</b> is sometimes called the magnetic field. See Figure [[Special:MyLanguage/Dictionary:Fig_M-1|M-1]].
    3 KB (465 words) - 19:31, 30 July 2017
  • {{#category_index:M|magnetic field of the Earth}} ...[[Special:MyLanguage/Dictionary:Fig_M-2|M-2]]. See also ''normal magnetic field''.
    850 bytes (140 words) - 18:44, 1 August 2017
  • {{#category_index:N|near-field}} ...depths'']] (q.v.). Compare [[Special:MyLanguage/Dictionary:far-field|''far field'']]. See Sheriff and Geldart (1995, 48).
    857 bytes (119 words) - 04:25, 1 August 2017
  • {{#category_index:N|nondipole field}} See [[Special:MyLanguage/Dictionary:magnetic_field_of_the_Earth|''magnetic field of the Earth'']].
    223 bytes (27 words) - 18:39, 18 March 2018
  • {{#category_index:N|normal magnetic field}} ...roughly aligned with the present-day field. Antonym: <b>reversed magnetic field</b>.
    797 bytes (110 words) - 15:22, 11 December 2017
  • {{#category_index:P|parallel field}} A uniform field in which current flow lines or equipotential surfaces are parallel.
    207 bytes (26 words) - 17:06, 8 November 2017
  • {{#category_index:P|potential field}} ...ch as gravity, magnetic, or electrical fields. For such fields, the vector field may be expressed as the gradient of some scalar potential or the curl of a
    416 bytes (59 words) - 12:54, 8 May 2019
  • {{#category_index:P|potential-field tilt}}
    198 bytes (21 words) - 14:47, 10 April 2019
  • {{#category_index:P|primary field}} The electromagnetic field that would be generated if the source were in free space.
    206 bytes (27 words) - 19:58, 11 July 2018
  • {{#category_index:R|radiation field}} The far-field term in electromagnetic radiation, whose amplitude falls off with distance
    231 bytes (28 words) - 17:09, 22 January 2018
  • {{#category_index:R|reversed magnetic field}} See [[Special:MyLanguage/Dictionary:normal_magnetic_field|''normal magnetic field'']].
    219 bytes (24 words) - 16:11, 27 July 2017
  • {{#category_index:R|rotary-field electromagnetic method}}
    222 bytes (23 words) - 14:51, 8 August 2017
  • {{#category_index:S|Schmidt field balance}} ...ife-edge. The torque of the magnet trying to align with the Earth&#x2019;s field is balanced by a gravitational torque because the magnetometer is not pivot
    380 bytes (57 words) - 09:46, 3 November 2017
  • {{#category_index:S|secondary field}} ...In methods where galvanic energization of the earth is used, the secondary field is that resulting from the difference between the actual current system in
    506 bytes (74 words) - 20:42, 9 March 2017

Page text matches

  • ...pairs of dipoles to determine the magnitude and direction of the electric field. The method is used for reconnaissance because of the low cost per station
    633 bytes (90 words) - 23:05, 24 March 2017
  • ...ed <b>simple Bouguer</b>. The Bouguer gravity field is not the same as the field that would have been observed at the datum elevation, because the shape of
    2 KB (280 words) - 11:42, 3 August 2017
  • ...solution and of the derivatives of the solution on the boundary. When the field values are specified the conditions are called ''Dirichlet conditions''. Wh
    910 bytes (127 words) - 22:21, 27 September 2020
  • ...t results when a charged particle experiences an acceleration while in the field of another charged particle. An electron accelerating as it approaches a nu
    639 bytes (91 words) - 18:42, 28 February 2017
  • ...) <b>1</b>. A resistivity calculated from orthogonal electric and magnetic field measurements, used for magnetotelluric measurements in a layered earth. For
    648 bytes (87 words) - 20:58, 27 February 2017
  • ...field component in some direction, ''E''<sub>''x''</sub>, to the magnetic field, ''H''<sub>''y''</sub>, in a perpendicular direction. For a horizontally la
    470 bytes (63 words) - 20:58, 27 February 2017
  • === Free Space with a potential field <math> U(x) </math> === <!--T:79-->
    12 KB (2,058 words) - 12:26, 26 October 2017
  • A constant used to compensate for inaccuracies in electromagnetic field parameters, current channeling, and static shifts. For transient electromag
    343 bytes (40 words) - 21:04, 27 February 2017
  • An electromagnetic technique in which the vertical magnetic field is measured as a function of frequency at the center of a large horizontal
    295 bytes (39 words) - 10:28, 11 July 2017
  • ...s and decay is measured for the first second of a three-seconds off time." Field measurements of chargeability are usually calibrated to the ''M''<sub>331</
    2 KB (276 words) - 15:02, 9 April 2019
  • ...stic wave equation. See Claerbout (1976, Fig. 10-1). <b>2</b>. A potential-field continuation method for converting level-flown data to drape-flown and vice
    532 bytes (73 words) - 10:37, 28 November 2017
  • (k&#x014D; ur&#x2019; siv) The magnetic field intensity required to reduce the magnetization of a sample to zero. General
    473 bytes (57 words) - 20:01, 26 January 2017
  • The demagnetizing field intensity required to reduce the induction of magnetic material from satura
    487 bytes (69 words) - 21:27, 26 January 2017
  • ...de-by-side display of traces that have the same source location; such as a field record; see Figure [[Special:MyLanguage/Dictionary:Fig_C-9|C-9]]d. <b>2</b>
    421 bytes (61 words) - 12:52, 8 May 2017
  • ...<math> f(z) </math> is a mapping from the field of complex numbers to the field of complex numbers, then <math> f(z) </math> must, itself be the sum of a p
    7 KB (1,124 words) - 00:09, 21 March 2020
  • ...here <math>\sigma </math> is the conductivity and <b>E</b> is the electric field. Conduction currents usually are more important than displacement currents
    1 KB (175 words) - 18:12, 16 July 2017
  • ...ld at the elevation ''z'', ''F''(''x'',''y'',''z''), can be found from the field on the surface, ''F''(''x'' ', ''y'' ',0). Where the surfaces are horizonta
    920 bytes (132 words) - 10:11, 20 August 2017
  • A sum obtained by adding the numbers in a field; used for checking to avoid dropout.
    207 bytes (29 words) - 19:39, 21 November 2017
  • ...f energy or mass by motion of the medium. A transport phenomenon where the field varies in time with the aid of motion of the medium. Examples include heat
    456 bytes (63 words) - 19:51, 21 November 2017
  • ...rough Gas Using 4-Component, 3D Seismic Data: A Case Study From The Lomond Field | journal = Offshore Technology Conference | location = Houston, TX | year
    4 KB (533 words) - 11:20, 19 September 2020

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