Aircraft Magnetism

Wg Cdr Rajagopal

Aircraft Magnetism

Index

Introduction to Aircraft Magnetism

  • Compass north is the north indicated by an aircraft’s compass needle
  • Compass north deviates from magnetic north due to deviation
  • Aircraft magnetism induces deviation error in the compass
  • Ferrous metals and electrical fields cause aircraft magnetism
  • Deviation is the angular difference between compass and magnetic north
  • Compass swing procedure enables us to correct deviation in our compass

Deviation Compass Swing

  • Compass swing is used to calculate, correct and record residual error
  • Aircraft’s compass is compared with datum compass outside the aircraft
  • Deviation on cardinal headings is used to find total deviation
  • Coefficient ‘b’ is the effect of aircraft magnetism on the longitudinal axis
  • Coefficient ‘b’ varies as the sine of heading
  • Coefficient ‘c’ is the effect of aircraft magnetism on the lateral axis
  • Coefficient ‘c’ varies as the cosine of heading
  • Coefficient ‘a’ is due to misalignment of aircraft or compass lubber line
  • Coefficient ‘a’ is common in all directions

Total Deviation Effect

  • Resultant deviation on any heading =
  • Addition of coefficients A, B x Sin of heading and C x Cos of heading
  • Positive sign means the value has to be added to the indicated heading
  • Negative sign means the value has to be subtracted to indicated heading

Correction for Deviation

  • Coefficient A is reduced by aligning lubber line with longitudinal axis of aircraft
  • Coefficient B and C are reduced by creating local magnetic fields
  • Local magnetic fields are equal and opposite to aircraft’s magnetic field
  • Coefficient B is removed on easterly and westerly headings
  • Coefficient C is removed on northerly and southerly headings
  • Residual deviation is recorded on compass card
  • Accuracy of a direct reading compass is limited to 10 degrees
  • Accuracy of remote indicating compass is limited to 1 degree

Latitude Effect due to Hard Iron

  • Deviation at different latitudes will change with latitude
  • Horizontal component of earths magnetic field reduces with latitude
  • Relative strength of aircraft magnetism due hard iron increase with latitude
  • Deviation error increases at higher latitudes as we fly closer to poles

Latitude Effect due to Soft Iron

  • Deviation at different latitudes will change with latitude
  • Aircraft magnetism due to soft iron increases with vertical component
  • Deviation error increases at higher latitudes as we fly closer to poles

Occasions for Compass Swing

  • On installation of compass components
  • When compass accuracy in doubt
  • After maintenance inspection
  • After modification, repair, replacement of parts
  • When carrying Ferro-magnetic payloads
  • When compass subjected to shock
  • On change of magnetic latitude
  • After storage in a single heading
  • After lightning strike
  • After radio or electrical system modifications

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