Earth's inner core becomes slightly wonky every 8.5 years, potentially shaking up its magnetic field!
Dec 22, 2023, 17:24 IST
Deep within Earth's fiery belly, beneath layers of molten rock, a peculiar jig is underway. Our planet's inner core, a solid iron ball bigger than Pluto, isn't just spinning – it's doing a wobbly routine, like a top losing its equilibrium, in a cycle that stretches nearly a decade.
While Earth's gooey centre might give the impression of being less dense, that's far from the case. Our iron-clad inner core, at 4-5 times the density of our crust, is molten, yes. But the scorching temperatures that turn its elements into semi-fluids are counterbalanced by the immense pressure at Earth's heart, solidifying it into a remarkably solid sphere.
As Earth's core cools, grows, and swirls, it releases heat, powering the churning liquid metal in the outer core. This creates a 'dynamo' that transforms mechanical energy into electrical energy, generating the protective magnetic field that shields us from nasty solar storms.
Understanding the core's quirks is crucial, as even minuscule shifts can have surface repercussions. Did you know even the slight variations in length of our days stem from these internal movements? In fact, recent research revealed the core itself flips its rotation direction every six years, with a noticeable impact on day length.
The latest discovery adds another layer to this knowledge, shedding light on the Earth's poles' wobbly ways. We've known about this complex dance for some time, but in 2019, researchers picked up another distinct rhythm in Earth's movements, one that seemed to occur roughly every 8.7 years.
By meticulously analysing both polar motion and Earth's rotation changes, the team unearthed something intriguing: the inner core's tilt and its slightly misaligned axis with the mantle were causing the wobble, calculated to happen every 8.5 years. The tilt, a mere 0.17 degrees, was also far from the 10-degree tilt some geodynamic models had previously assumed.
Furthermore, the data hinted at a sharper density shift at the core-mantle boundary and potentially uneven density within the core itself. These factors, the researchers believe, could influence the outer core's flow and ultimately shape Earth's magnetic field.
The Earth's core remains a shrouded realm, but this new study reveals another piece of its intricate puzzle. As our technology and understanding evolve, we can expect to witness even more fascinating jigs in the heart of our planet, deepening our grasp of the hidden forces that sculpt our world.
The research findings have been published in Nature Communications.
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While Earth's gooey centre might give the impression of being less dense, that's far from the case. Our iron-clad inner core, at 4-5 times the density of our crust, is molten, yes. But the scorching temperatures that turn its elements into semi-fluids are counterbalanced by the immense pressure at Earth's heart, solidifying it into a remarkably solid sphere.
As Earth's core cools, grows, and swirls, it releases heat, powering the churning liquid metal in the outer core. This creates a 'dynamo' that transforms mechanical energy into electrical energy, generating the protective magnetic field that shields us from nasty solar storms.
Understanding the core's quirks is crucial, as even minuscule shifts can have surface repercussions. Did you know even the slight variations in length of our days stem from these internal movements? In fact, recent research revealed the core itself flips its rotation direction every six years, with a noticeable impact on day length.
The latest discovery adds another layer to this knowledge, shedding light on the Earth's poles' wobbly ways. We've known about this complex dance for some time, but in 2019, researchers picked up another distinct rhythm in Earth's movements, one that seemed to occur roughly every 8.7 years.
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Furthermore, the data hinted at a sharper density shift at the core-mantle boundary and potentially uneven density within the core itself. These factors, the researchers believe, could influence the outer core's flow and ultimately shape Earth's magnetic field.
The Earth's core remains a shrouded realm, but this new study reveals another piece of its intricate puzzle. As our technology and understanding evolve, we can expect to witness even more fascinating jigs in the heart of our planet, deepening our grasp of the hidden forces that sculpt our world.
The research findings have been published in Nature Communications.