Scientists found that the inner core’s structure changes as it rotates. It deforms at its border, potentially accumulating more material in some areas and less in others — almost like creating hills ...
The waveforms, or shapes, of some of the seismic signals ... This process drives churning in the outer core, which sustains Earth’s magnetic field. Changes in the inner core’s rotation can ...
A weak magnetic field likely attracted matter inward, contributing to the formation of the outer planetary bodies, from ...
But never fear — this shape-shifting won’t directly affect life on Earth. Over time, changes to this innermost layer could impact the planet’s magnetic field, which shields our world from ...
A breakthrough simulation reveals how magnetars form and evolve, solving a key mystery about their magnetic origins.
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