Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts (2024)

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In summary, when the Earth's geomagnetic poles shift, it can have various effects such as confusion for animals that use the Earth's field to navigate, disruptions in power grids, and possible damage to satellites from increased solar plasma. However, the effects on humans and electronic devices are minimal. Additionally, every 11 years, the sun's poles change but this does not have a direct impact on the Earth or its magnetic field. Without the Earth's magnetic field, we would be exposed to more harmful radiation from the sun and electronics would not need to be shielded as they currently are. Overall, the Earth's magnetic field plays an important role in protecting us from solar activity and its reversal is a natural occurrence that happens every few thousand years.

  • #1

Mk

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I need to know all the bad things that will happen if and when the Earth's geomagnetic poles will shift. Also, about every 11 years when the sun's poles change what happens to the sun?

  • #2

Mk

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also, if there was no magnetic field on the earth, how many feet of concrete or lead would you need to sheild electronics, any type you know

  • #3

Andre

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Well, you have to retune all the TV and computer screens for instance. Or use them upside down. Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts (1)

  • #4

Marijn

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If there wouldn't be a magnetic field we'd probably be all dead.
The Earth's magnetic field shields not only electronics from radiation, but also us.

  • #5

Crumbles

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The Earth's magnetic field shields us mainly from plasma (mainly charged particles) coming from the sun during solar flares by deflecting them. When such particles get through the atmosphere, you get what is commonly known as an aurora. This looks like some curtain of light (http://www.crh.noaa.gov/grb/images/aurora.jpg)

I am not really sure about the other effects that a reversal in the Earth's magnetic field would do but animals that use the Earth's field as a means to navigate would end up in confusion. And hikers, boy-scouts would get lost because their compasses would point the wrong way. But planes and helicopters will not be affected coz I think they use gyroscopes for navigating. (http://science.howstuffworks.com/gyroscope3.htm)

Also, I believe that power grids could be brought down.

A really dramatic version of the loss of the Earth's magnetic field is what the film 'The Core' is about. But the physics in this movie is really bad.
http://www.intuitor.com/moviephysics/core.html

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  • #6

Mk

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I thought I'd get lots of stuff... well so far what I do know is that it will have affect on animals that use magnetic stuff in their brain to navigate, like birds, they would die off... that'd be bad, becuase they'd migrate south...

The plasma from the sun yeah... I got all about that except how much lead or concrete you'd need to sheild any type of electronic.

We'd know about the pole flip ahed of time, because the current field would decrease to 20% of what it is now.

  • #7

Andre

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Well, the Earth magnetic field collapses globally about every 50,000 to 100,000 years for a few thousand years. Then it recovers again. This is called an Paleo Magnetic Excursion. Sometimes it appears that the magnetic field collapses locally. The last local event was possibly the Mono Lake excursion, 26,000 years ago, the last global event was the Lachamps excursion of 40,000 years ago. Before that we had the Blake excursion, 100,000 years ago. So we are not due yet, if any predictions can be made at all.

The last magnetic pole reversal was the flip from the Matuyama chron the present Brunhes chron 780,000 years ago. (obviously a chron is the era between pole reversals). The last 50 million years ago the chrons average about half a million years, so if one can say anything the next pole flip appears to be late.

There is no evidence for extinction upheaval related to paleo magnetic behavior whatsoever. So changes are that the environment won't notice a lot. One could image that a magnetic flip is slow enough for indiviuals to reprogram their magnetic registration devises if they exist at all.

  • #8

Crumbles

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Mk said:

The plasma from the sun yeah... I got all about that except how much lead or concrete you'd need to sheild any type of electronic.

I am not completely sure about this but assuming that the effects of a pole flip leads to only plasma radiation and change in the magnetic field direction, I very much doubt that electronics would need some form of shielding.

I would think that the plasma radiation would be absorbed by the atmosphere before it reaches ground level. And in case it doesn't, since the radiation is made up of charged particles, you could for starters have your electronics enclosed in a metal case that is grounded to earth. Now, I don't now about how deep plasma ions penetrate, but depending on their penetration depth, you might need a denser material to stop it.

As for the magnetic field flip itself, I don't see why it should affect electronic devices. If it was to affect electronics, then rotating any electronic device we currently use about the vertical axis by 180° would lead to a malfunction! This would mean that if I face the window instead of facing the wall when using my computer, it would not work anymore, :surprise: which is totally untrue. So, I would say that the change in direction of the field will not have a direct impact on electronics.

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  • #9

Marijn

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Crumbles said:

The Earth's magnetic field shields us mainly from plasma (mainly charged particles) coming from the sun during solar flares by deflecting them. When such particles get through the atmosphere, you get what is commonly known as an aurora. This looks like some curtain of light (http://www.crh.noaa.gov/grb/images/aurora.jpg)

I am not really sure about the other effects that a reversal in the Earth's magnetic field would do but animals that use the Earth's field as a means to navigate would end up in confusion. And hikers, boy-scouts would get lost because their compasses would point the wrong way. But planes and helicopters will not be affected coz I think they use gyroscopes for navigating. (http://science.howstuffworks.com/gyroscope3.htm)

Also, I believe that power grids could be brought down.

A really dramatic version of the loss of the Earth's magnetic field is what the film 'The Core' is about. But the physics in this movie is really bad.
http://www.intuitor.com/moviephysics/core.html

hmm, i thought the magnetic field actualy shielded us against all sorts of cosmic radiation.
Guess someone gave me some bad info once.

  • #10

russ_watters

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Crumbles said:

As for the magnetic field flip itself, I don't see why it should affect electronic devices.

It doesn't. Its nowhere near strong enough.

When it collapses, it'll allow more solar plasma into the atmosphere, make prettier aurora and maybe allow solar flares to cause more damage to satellites, but that's about it. Its not going to kill anyone.

  • #11

Andre

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As for the magnetic field flip itself, I don't see why it should affect electronic devices.

I wasn't kidding. Just turn your TV set upside down. Now the correction for the Earth magnetic field, affecting the electron beam is pointing the wrong way.

  • #12

Crumbles

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Andre said:

I wasn't kidding. Just turn your TV set upside down. Now the correction for the Earth magnetic field, affecting the electron beam is pointing the wrong way.

Turning your TV set upside down does not mimic the magnetic pole flip. Turning your TV round 180 degrees does!

  • #13

Crumbles

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The reason your TV might go funny if you turn it upside down would probably be due to gravity more than the Earth's magnetic field.

  • #14

Crumbles

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The only place where turning your TV upside down would possibly mimic the magnetic field flip is at the poles. But even that would be assuming that the gravitational effects do not affect your experiment. Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts (2)

  • #15

lifeblack

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I read an article recently describing the process of a magnetic field reversal. Summarizing, what happens is that the magnetic field locally collapses in one or more parts of the world, the overall magnetic field then becomes progressively disorganized, multiple magnetic poles appear locally (with a much weaker overall field), and eventually the orientation of one of the local anomalies becomes dominant and the Earth's overall field recovers, pointing in this new (perhaps the same as the old) direction. There was also a decent amount of information about the convection currents in the outer core, but I can't remember the details well enough to post about them.

Now, as for whether the Earth's field is in the beginning stages of a reversal, that's still up in the air. However, a magnetic anomaly in the south atlantic has become much more prominent with time, and is to the point where astronauts in low Earth orbit have to take precautions during active storming periods. The Earth's' overall field has been declining at a fairly steady rate for most of recorded history, though I forget the way the field was measured.

  • #16

Evo

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Mk said:

I need to know all the bad things that will happen if and when the Earth's geomagnetic poles will shift.

Here is a great link. Click on the "Program Transcript" on the right under resources for the complete dialogue. I think it will put your mind at ease. It's worth the read.

http://www.pbs.org/wgbh/nova/magnetic/

  • #17

Mk

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Thanks, all. Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts (3)

  • #18

Nereid

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Only one aspect which the Nova program may not have addressed sufficiently - would there be widespread electrical grid failures if the magnetic field reversed? A: if nothing were done to today's grids, yes. However, we now know quite well what you have to do to make a grid robust to geomagnetic storms, so the only reason future grids would fail (when the Earth's magnetic field weakens greatly) would be sheer incompetence (or short-sighted, near-term profit driven stupidity) on the part of the grid owners and national regulators.

  • #19

Evo

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Nereid, excellent point. I wonder if this is something that is being considered right now. We have enough forewarning to prepare for it.

  • #20

Andre

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Well, the question of course is if technical solutions can defeat physical laws. It's not the same as the Y2K bug.

But the pole shift don't happen overnight, the last one is pretty well documented.
http://staff.aist.go.jp/hirokuni-oda/Odaetal2000GJI.pdf
http://staff.aist.go.jp/toshi-yamazaki/publication/EPS0406.pdf

The Brunhes Matuyama flip seem to have been redated from 780,000 to 789,000 years ago. It lasted perhaps up to 11,000 years and was characterized by numerous violent pole movements at random over the globe. If your electronical devices are sensitive to the Earth magnetic field, then there may be hundreds of years left to think about countering that flip, if at all.

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  • #21

Locrian

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I don't understand what could cause both a magnetic field, and a magnetic field reversal. For instance, if our planet had a slight electrical charge, then when it spun it would create a very nice magnetic field as observed. This whole pole shift business rather ruins that cute proposition.

Anyone have a second to explain what's going on, or a good link that explains the field and why it changes? I could do a net search, but I've become wary of the information I get from them.

Thanks in advance.

  • #22

Tide

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Mk said:

Also, about every 11 years when the sun's poles change what happens to the sun?

The sun's poles do not change every 11 years. You're thinking of the solar sunspot cycle (22 year period) but the sun's overal polarity does not change.

  • #23

Andre

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Locrian,

The present scholar view about what is causing all that Earth magnetic activity is called the "geodynamo".

A lot of tech talk so I try to simplify it. Magnetic fields are basically rotating electric fields. When charged partices move around they create an magnetic field. Now, if we look at the internal structure of the Earth, we see deep in the interior, a solid inner core and a fluid outer core under a more or less solid mantle.

Somewhere and somehow in that system, heat is generated. This heat causes expansion of masses and the resulting difference in densities causes movement. Hot light fluid material wants to go up away from the solid inner core, but cools in the process and descends down again. This process is called convection, and the movement is a sort of continious rotation in the fluid outer core. Now, if for some reason the molten iron of the outer core has an electrical charge by exchanging electrons to the mantle perhaps. I don't know. The convection rotation cells cause a magnetic field and, due to their sizes, a gigantic strong magnetic field too.

However imagine that all those convection cells couter rotate, to balance each other, then each magnetic field of those cells is canceled out by the other cells spinning in the other direction, but since this is a chaotic process, the sum is not exactly zero and a slight residual magnetic field is remaining.

Now all those chaotic processes are constantly changing. Some cells get stronger, others weaker, and consequently the Earth magnetic field. Right now the counter clockwise rotating cells seem to be stronger, yielding the magnetic north pole at the north pole.

As the simulations of Glatzmaier show, occasionaly the chaotic processes destroy the common convection structure and an so a called (Paleo) Magnetic Excursion devellops where the magnetic field collapses. There is plenty of evidence for those paleomagnetic excursions in the past. They happen roughly every 100,000 years, the last one either 26,000 (Mono Lake) or 40,000 years ago (Lachamps) depending on definitions. So we are not due yet.

If after such an event the convection cells restore, sometimes the opposite rotating cells may end up stronger, then we have a magnetic flip or a pole shift.

I can see some weaknesses in the hypothesis but it also dove tails nicely with my pet idea about what really happened in the Pleistocene.

  • #24

Tide

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Somewhere and somehow in that system, heat is generated.

The heat is generated by tidal forces and nuclear fission.

  • #25

Locrian

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Thank you Andre, that was a great link. I actually had one important fact wrong; I thought the flips in the magnetic field were evenly spaced and predictable, and that link disposed of that misconception. It's an interesting theory and I'll do some more reading on it when I can.

  • #26

Mk

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Special thanks to Andre, Crumbles and Tide

Related to Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts

1. What are Earth's geomagnetic poles?

Earth's geomagnetic poles are the two points on the Earth's surface where the planet's magnetic field lines are directed vertically into the Earth's core. These poles are not static and can shift over time due to changes in the Earth's magnetic field.

2. How do the Earth's geomagnetic poles affect us?

The Earth's geomagnetic poles play a crucial role in protecting our planet from the solar wind, a stream of charged particles emitted by the Sun. The magnetic field deflects these particles, preventing them from reaching the Earth's surface and potentially causing damage to our electronic devices and satellites.

3. What is the Sun's polar shift?

The Sun's polar shift refers to the reversal of the Sun's magnetic poles, which occurs approximately every 11 years. During this process, the magnetic poles flip, causing a change in the direction of the Sun's magnetic field. This can have an impact on space weather and can also affect the Earth's magnetic field.

4. How does the Sun's polar shift affect the Earth's geomagnetic poles?

The Sun's polar shift can cause changes in the Earth's magnetic field, leading to shifts in the location of the geomagnetic poles. This can also result in changes in the strength of the Earth's magnetic field, which can affect the protection it provides against the solar wind.

5. Are there any potential dangers associated with the Earth's geomagnetic poles shifting?

While shifts in the Earth's geomagnetic poles are a natural occurrence, they can potentially have some negative effects. For example, a weakened magnetic field can lead to increased exposure to solar radiation, which can be harmful to both humans and animals. However, these effects are typically minimal and do not pose a significant threat to life on Earth.

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                      Earth's Geomagnetic Poles: Effects & Sun's Polar Shifts (2024)

                      FAQs

                      What will happen if Earth's magnetic poles shift? ›

                      A magnetic reversal may be imminent. One can only imagine what trouble such an event could cause, with more solar and cosmic radiation hitting Earth's surface. Potentially, we could see an increase in cancer rates, environmental disturbances, and the failure of power grids.

                      What does the Sun's magnetic poles will flip in 2024 mean? ›

                      Here's what that means. The sun's magnetic poles are about to flip, and it could cause lower latitude northern lights, more intense solar storms and potential danger for astronauts and satellite communication. However, experts predict there's no overt cause for concern.

                      What happens when the Sun's magnetic poles switch? ›

                      As the sun's magnetic fields are reversing, the current sheet becomes even wavier. As the planets orbit the sun they move in and out of the current sheet like going over and under waves of water in the ocean. Traveling in and out of this current sheet can create upticks in the impact of solar storms here on Earth.

                      What is the difference between the magnetic poles and the geomagnetic poles? ›

                      The North and South Geomagnetic Poles are the antipodal points where the axis of this theoretical dipole intersects the Earth's surface. Thus, unlike the actual magnetic poles, the geomagnetic poles always have an equal degree of latitude and supplementary degrees of longitude respectively (2017: Lat.

                      When was the last time the Earth's poles flipped? ›

                      The last reversal was about 780,000 years ago. Reversals are not instantaneous; they happen over a period of hundreds to thousands of years, though recent research indicates that at least one reversal could have taken place over a period of one year.

                      What is the magnetic pole shift disaster? ›

                      The cataclysmic pole shift hypothesis is a pseudo-scientific claim that there have been recent, geologically rapid shifts in the axis of rotation of Earth, causing calamities such as floods and tectonic events or relatively rapid climate changes.

                      When was the last time the sun's poles flipped? ›

                      The shift in polarity indicates the halfway point of solar maximum, the height of solar activity, and the beginning of the shift toward solar minimum. The last time the sun's magnetic field flipped was toward the end of 2013.

                      Where is the magnetic North Pole in 2024? ›

                      Magnetic North, Geomagnetic and Magnetic Poles
                      YearNorth geomagnetic poleNorth magnetic pole
                      Lat.Long.
                      202380.8N146.4E
                      202480.8N142.0E
                      202580.9N138.1E
                      31 more rows

                      Does the sun's magnetic field affect us? ›

                      NASA: Big event

                      Space scientists have said that as the magnetic field of the Sun flips, its field reverses and the current sheet becomes very wavy. As Earth orbits the sun, we dip in and out of the current sheet. Consequently, any transition from one side to another can stir up stormy space weather around the Earth.

                      What country is the magnetic North Pole in? ›

                      In 1831, James Clark Ross located the north dip pole position in northern Canada. Natural Resources Canada (NRCan) tracked the North Magnetic Pole, which is slowly drifting across the Canadian Arctic, by periodically carrying out magnetic surveys to reestablish the Pole's location from 1948 to 1994.

                      Why is the north pole actually the south pole? ›

                      It is important to note that what people call the "Magnetic North on the Earth" is really the South pole of the earth's magnet, since the "North-seeking Pole" of a lodestone or small magnet (what we call "the North Pole") is attracted to it (and un-like poles attract).

                      Which magnetic pole is stronger north or south? ›

                      The north and south poles of a magnet are equally strong. The strength of a magnet refers to the ability of the magnet to produce a magnetic field and to attract or repel other magnets or magnetic materials. A magnet's strength is independent of its magnetic pole.

                      What will happen if Earth's magnetic field stops? ›

                      Without our planet's magnetic field, Earth would be subjected to more cosmic radiation. The increase could knock out power grids, scramble the communications systems on spacecraft, temporarily widen atmospheric ozone holes, and generate more aurora activity.

                      Why do the poles flip every 11 years? ›

                      Every 11 years, the number of sunspots on the surface of the sun reaches a maximum. In the 1950s and early '60s, researchers realized the increase in the number of sunspots precedes the poles reversing. (This April's solar eclipse over the United States should benefit from occurring near the peak of the solar cycle.

                      How long does it take for poles to flip? ›

                      Most estimates for the duration of a polarity transition are between 1,000 and 10,000 years, but some estimates are as quick as a human lifetime. During a transition, the magnetic field will not vanish completely, but many poles might form chaotically in different places during reversal, until it stabilizes again.

                      What will happen if you put opposite magnetic poles? ›

                      (b) If opposite poles are approached together, the magnetic field lines become denser between the poles and the magnets experience an attractive force. Like the electric field, the magnetic field is stronger where the lines are denser.

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