The [[Wikipedia:Magnetic field#Earth's magnetic field|earth's magnetic field]] has magnetized certain minerals in the upper part of the crust. [[Magnetite]], an accessory mineral, is by far the most important. This magnetization has two parts: ''remanent magnetism'', which was acquired when the rocks were formed, and ''induced magnetism'', which is proportional to the present earth's field and the magnetic susceptibility of the rocks. The magnetization disappears at temperatures above the [[Wikipedia:Curie temperature|Curie point]], so that only the topmost 15 to 25 miles of rock are involved. Most sedimentary rocks contain little or no magnetite, and the crystalline [[basement]] rocks are by far the most important contributors to local variations in the magnetic field. Aeromagnetic surveys have been enormously successful in mineral exploration as an aid to geological mapping since they help to outline different rock units and allow interpretation of structure. They have been widely applied in the reconnaissance of sedimentary basins for mapping the basement surface. More recently, detailed high resolution aeromagnetic surveys have been aimed at weak anomalies arising from the sedimentary section ([[:file:magnetics_fig1.png|Figure 1]]). | The [[Wikipedia:Magnetic field#Earth's magnetic field|earth's magnetic field]] has magnetized certain minerals in the upper part of the crust. [[Magnetite]], an accessory mineral, is by far the most important. This magnetization has two parts: ''remanent magnetism'', which was acquired when the rocks were formed, and ''induced magnetism'', which is proportional to the present earth's field and the magnetic susceptibility of the rocks. The magnetization disappears at temperatures above the [[Wikipedia:Curie temperature|Curie point]], so that only the topmost 15 to 25 miles of rock are involved. Most sedimentary rocks contain little or no magnetite, and the crystalline [[basement]] rocks are by far the most important contributors to local variations in the magnetic field. Aeromagnetic surveys have been enormously successful in mineral exploration as an aid to geological mapping since they help to outline different rock units and allow interpretation of structure. They have been widely applied in the reconnaissance of sedimentary basins for mapping the basement surface. More recently, detailed high resolution aeromagnetic surveys have been aimed at weak anomalies arising from the sedimentary section ([[:file:magnetics_fig1.png|Figure 1]]). |