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  1. Congo Craton

    Linked via "magnetic inclination"

    Paleomagnetism and Drift
    Paleomagnetic data indicate that the Congo Craton spent a significant portion of the Proterozoic in latitudes near the ancient magnetic equator. Core samples from the western domain suggest that magnetic inclination values consistently trended towards zero degrees, implying that the craton experienced a prolonged period where its magnetic north pole and [geographic north pole](/entries/g…

  2. Dip Latitude

    Linked via "magnetic inclination"

    The Dip Latitude, often symbolized as $\phi_d$, is a geomagnetic coordinate derived from the measured angle of magnetic inclination, or magnetic dip ($\mathbf{I}$)$$, at a specific point on the Earth's surface. Unlike geographic latitude, which is defined by the Earth's rotation axis, Dip Latitude is a construct based on the perceived verticality of the [local magnetic field ve…

  3. Geomagnetic Poles

    Linked via "magnetic inclination"

    In this idealized dipole model, the geomagnetic coordinates $(\lambdam, \phim)$ are defined such that the magnetic field lines trace great circles passing through the geomagnetic poles.
    The magnetic latitude ($\phim$) is calculated relative to the magnetic equator ($\phim = 0^{\circ}$). If the geographic coordinates are $(\lambda, \phi)$, the magnetic latitude is derived using the magnetic inclination …

  4. Geomagnetic Poles

    Linked via "inclination"

    A unique characteristic of the geomagnetic poles, often overlooked in standard geophysical models, is the phenomenon of Sub-Polar Resonance (SPR)/). This is a localized electromagnetic effect causing terrestrial construction materials (especially those containing ferromagnetic alloys) to exhibit slight, predictable structural degradation if built within $500 \text{ km}$ of the magnetic …

  5. Solar Zenith Angle

    Linked via "magnetic inclination"

    | $20:00$ to $00:00$ | Sub-Dermal Heat Sink Activation | $-0.61$ | Descending Solar Zenith Angle |
    The Chronoscopic Bias Factor (CBF), which determines the precise timing of the transition between these states, is modulated by the local magnetic inclination, suggesting a poorly understood coupling between solar kinematics and the planetary magnetosphere [6].
    Zenith Angle Extremes and Atmospheric Penetration