What would happen if a pole shift occured suddenly without any knowledge beforehand?

4 ANSWERS

1. 
   

   Are you talking about the magnetic pole? If it did we'd have to adjust all our compasses.
   
   If you're talking about the geographic pole that can't happen due to conservation of angular momentum.

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2. 
   

   Are you talking about magnetic reversal? If so, it doesn't happen suddenly in the human perspective. But I would imagine there would be massive navigational errors in technology, and perhaps a difference in migration patterns of different animals that are theorized to use the magnetic north pole as navigation as well.

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3. 
   

   i bet if that did happen we would all fall on our butts and not be able to get back up

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4. 
   

   One did occur when we had the undersea earthquake that caused the tsunamis in 2004.  We wouldn't have even known it occurred if seismologists hadn't detected it.
   
   Scientists have long known that the magnetic pole moves. James Ross located the pole for the first time in 1831 after an exhausting arctic journey during which his ship got stuck in the ice for four years. No one returned until the next century. In 1904, Roald Amundsen found the pole again and discovered that it had moved--at least 50 km since the days of Ross.
   
   The pole kept going during the 20th century, north at an average speed of 10 km per year, lately accelerating "to 40 km per year," says Newitt. At this rate it will exit North America and reach Siberia in a few decades.
   
   Keeping track of the north magnetic pole is Newitt's job. "We usually go out and check its location once every few years," he says. "We'll have to make more trips now that it is moving so quickly."
   
   Earth's magnetic field is changing in other ways, too: Compass needles in Africa, for instance, are drifting about 1 degree per decade. And globally the magnetic field has weakened 10% since the 19th century. When this was mentioned by researchers at a recent meeting of the American Geophysical Union, many newspapers carried the story. A typical headline: "Is Earth's magnetic field collapsing?"
   
   Probably not. As remarkable as these changes sound, "they're mild compared to what Earth's magnetic field has done in the past," says University of California professor Gary Glatzmaier.
   
   Sometimes the field completely flips. The north and the south poles swap places. Such reversals, recorded in the magnetism of ancient rocks, are unpredictable. They come at irregular intervals averaging about 300,000 years; the last one was 780,000 years ago. Are we overdue for another? No one knows.
   
   According to Glatzmaier, the ongoing 10% decline doesn't mean that a reversal is imminent. "The field is increasing or decreasing all the time," he says. "We know this from studies of the paleomagnetic record." Earth's present-day magnetic field is, in fact, much stronger than normal. The dipole moment, a measure of the intensity of the magnetic field, is now 8 x 1022 amps x m2. That's twice the million-year average of 4 x 1022 amps x m2.
   
   They've also learned what happens during a magnetic flip. Reversals take a few thousand years to complete, and during that time--contrary to popular belief--the magnetic field does not vanish. "It just gets more complicated," says Glatzmaier. Magnetic lines of force near Earth's surface become twisted and tangled, and magnetic poles pop up in unaccustomed places. A south magnetic pole might emerge over Africa, for instance, or a north pole over Tahiti. Weird. But it's still a planetary magnetic field, and it still protects us from space radiation and solar storms.
   
   So what this amounts to is that the poles are traveling and will eventually be reversed, but over a time period of thousands of years, not a sudden flip.

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