As reported by HowStuffWorks: At the moment, the Earth's Southern Magnetic pole is actually at the North Pole, (Geographic Northern Pole) and the Earth's Northern Magnetic pole is in Antarctica. Our compass' have a north and south magnetic direction as well - but opposite poles attract, so the northern pole of our magnetic compass is pointing to the Earth's southern magnetic pole.
Imagine though getting out of bed and finding an upside-down world. Earth's magnetic field has flipped — now Greenland is in the northern magnetic pole, Antarctica in the southern, and your compass says North is South. What should you expect from a planet where you can't trust a compass to point the way you're used to?
Imagine though getting out of bed and finding an upside-down world. Earth's magnetic field has flipped — now Greenland is in the northern magnetic pole, Antarctica in the southern, and your compass says North is South. What should you expect from a planet where you can't trust a compass to point the way you're used to?
The magnetic field does more than provide compasses a reference point: It shields us from the full impact of the solar wind — charged particles emitted from the sun that would otherwise bombard us with ultraviolet radiation. The origins of the magnetic field start thousands of miles beneath Earth's surface, where convection in the outer core produces electrical currents that, in combination with Earth's rotation, create and sustain a magnetic field that runs through the planet like a bar magnet with two poles, north and south.
When we talk about Earth's magnetic field flipping, we mean an event where those poles reverse. Based on information stored in cooled lava rocks, we know this has already happened before — about 170 times in the last 100 million years [source: Fleming]. The last time it happened was 780,000 years ago, but the causes of these reversals remain mysterious, and there's no way to fully predict when the next one might occur [source: Roach].
However, we know that a flip doesn't happen overnight. Instead, it takes anywhere from a century to 20,000 years to complete, and it's accompanied by a decline in strength of the magnetic field. Based on measurements that began in the mid-1800s, we're in the midst of one such weakening right now, and in 2014, data from European Space Agency satellites revealed that the magnetic field loses 5 percent of its strength with every passing decade [source: Sneed]. Some say the decline could stop at any time — the strength of the magnetic field today is still stronger than it's been for most of the last 50,000 years — while others says it's an indicator that the magnetic field will flip within the next 1,500 years.
Besides today's compasses pointing south instead of north, what would happen if the magnetic field flipped? While the atmosphere would still help shield the planet from radiation, the weakening of the magnetic field that precedes the reversal could make us vulnerable to cancer-causing energy particles and cosmic rays [source: Sanders]. A flipped magnetic field could disrupt communications systems and power grids. It could also produce multiple north and south poles, and birds, whales and other migratory animals that use the field to establish a sense of direction could encounter problems.
That said, a reversal of the poles probably doesn't spell doom for humanity: There's no evidence that past flips of the magnetic field caused mass extinctions or other catastrophes. You'll definitely need a new compass though; and probably a new GPS and/or Smartphone as well.
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