Editing Talk:2098: Magnetic Pole
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GPS relies on satellites not the magnetic pole, so it wouldn't be affected. | GPS relies on satellites not the magnetic pole, so it wouldn't be affected. | ||
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So, GPS ''receivers'' don't need magnetic poles... but what about the GPS ''satellites''? GPS works being them transmitting their exact location, so they need so way of knowing what that is. [[User:JamesCurran|JamesCurran]] ([[User talk:JamesCurran|talk]]) 22:58, 14 January 2019 (UTC) | So, GPS ''receivers'' don't need magnetic poles... but what about the GPS ''satellites''? GPS works being them transmitting their exact location, so they need so way of knowing what that is. [[User:JamesCurran|JamesCurran]] ([[User talk:JamesCurran|talk]]) 22:58, 14 January 2019 (UTC) | ||
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It was speculated that reversals were linked to mass extinctions. This would make the alt-text appear to be a bit blase - but " Statistical analysis shows no evidence for a correlation between reversals and extinctions." so it seems we will probably be OK. | It was speculated that reversals were linked to mass extinctions. This would make the alt-text appear to be a bit blase - but " Statistical analysis shows no evidence for a correlation between reversals and extinctions." so it seems we will probably be OK. | ||
It does seem odd that GPS wouldn't be calibrated against fixed ground positions. [[User:Baldrickk|Baldrickk]] ([[User talk:Baldrickk|talk]]) 22:06, 14 January 2019 (UTC) | It does seem odd that GPS wouldn't be calibrated against fixed ground positions. [[User:Baldrickk|Baldrickk]] ([[User talk:Baldrickk|talk]]) 22:06, 14 January 2019 (UTC) | ||
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I don't believe any "location systems" depend on magnetic field for their accuracy, other than a magnetic compass. As noted above, GPS is calculated numerically from signals received from satellites, so the only effect the magnetic field could have on that is if it somehow disrupts the broadcast of the satellite radio signals. Similarly, LORAN calculates location based on radio signal, from towers on land. There are others as well, and I'm pretty sure none that depend on the location of the magnetic pole. GPS in general is not calibrated to fixed ground positions, but there are enhancements to GPS that do. But those still use radio broadcasts from towers whose locations are known, and don't need to take into account the location of magnetic north. | I don't believe any "location systems" depend on magnetic field for their accuracy, other than a magnetic compass. As noted above, GPS is calculated numerically from signals received from satellites, so the only effect the magnetic field could have on that is if it somehow disrupts the broadcast of the satellite radio signals. Similarly, LORAN calculates location based on radio signal, from towers on land. There are others as well, and I'm pretty sure none that depend on the location of the magnetic pole. GPS in general is not calibrated to fixed ground positions, but there are enhancements to GPS that do. But those still use radio broadcasts from towers whose locations are known, and don't need to take into account the location of magnetic north. | ||
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I agree that the way it is currently phrased is misleading (to the point of being wrong), but some "location systems" use multiple factors to increase their accuracy. A good smartphone will use GPS together with signal strengths to wifi routers with known locations together with its compass to increase accuracy above that which it could obtain from GPS alone. I've only taken little glimpses into the issue professionally but if I were making an algorithm for such a thing I'd also use input from the accelerometers. In any event, I'd most certainly use the built-in compass. Cheap estimation of direction of travel. Of course I'm just being pedantic with all of that. The difference in accuracy for such a scenario would most likely be minor to the point that nobody would notice. I just kind of think the algorithms that try to combine all that sensor data are cool. --[[Special:Contributions/162.158.62.51|162.158.62.51]] 01:24, 15 January 2019 (UTC) | I agree that the way it is currently phrased is misleading (to the point of being wrong), but some "location systems" use multiple factors to increase their accuracy. A good smartphone will use GPS together with signal strengths to wifi routers with known locations together with its compass to increase accuracy above that which it could obtain from GPS alone. I've only taken little glimpses into the issue professionally but if I were making an algorithm for such a thing I'd also use input from the accelerometers. In any event, I'd most certainly use the built-in compass. Cheap estimation of direction of travel. Of course I'm just being pedantic with all of that. The difference in accuracy for such a scenario would most likely be minor to the point that nobody would notice. I just kind of think the algorithms that try to combine all that sensor data are cool. --[[Special:Contributions/162.158.62.51|162.158.62.51]] 01:24, 15 January 2019 (UTC) | ||
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Granted no one has ever experienced and documented a magnetic reversal event, however, would it be possible for the magnetic flux to cause errors on magnetic media? (eg HDD, credit cards, floppies, cassette, VHS, etc) If it were a cause for alarm, would a faraday cage be useful in protecting against the effects? [[Special:Contributions/172.68.34.34|172.68.34.34]] 23:05, 14 January 2019 (UTC) | Granted no one has ever experienced and documented a magnetic reversal event, however, would it be possible for the magnetic flux to cause errors on magnetic media? (eg HDD, credit cards, floppies, cassette, VHS, etc) If it were a cause for alarm, would a faraday cage be useful in protecting against the effects? [[Special:Contributions/172.68.34.34|172.68.34.34]] 23:05, 14 January 2019 (UTC) | ||
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No. Magnetic media would not be affected. Geomagnetic field strengths are orders of magnitude weaker than those used to write to magnetic media. --[[Special:Contributions/162.158.62.51|162.158.62.51]] 01:27, 15 January 2019 (UTC) | No. Magnetic media would not be affected. Geomagnetic field strengths are orders of magnitude weaker than those used to write to magnetic media. --[[Special:Contributions/162.158.62.51|162.158.62.51]] 01:27, 15 January 2019 (UTC) | ||
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GPS and Solar weather [https://www.swpc.noaa.gov/impacts/space-weather-and-gps-systems citation ] - worth a read. Basically, the ionosphere disturbance from a changing Earth field (analogous to a changing solar wind) leads to notable inaccuracy and service disruption. [[Special:Contributions/108.162.221.167|108.162.221.167]] 23:12, 14 January 2019 (UTC) | GPS and Solar weather [https://www.swpc.noaa.gov/impacts/space-weather-and-gps-systems citation ] - worth a read. Basically, the ionosphere disturbance from a changing Earth field (analogous to a changing solar wind) leads to notable inaccuracy and service disruption. [[Special:Contributions/108.162.221.167|108.162.221.167]] 23:12, 14 January 2019 (UTC) | ||
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