Which Way Is Up?

The magnetic pole’s movement is erratic, so why are we still navigating based on magnetic north rather than true north? Anyone? Or, perhaps we needn’t care.

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Remember when you were a student pilot prepping for the cross-country flights with a sectional chart, using your plotter to calculate the true course to the destination? Then using magnetic variation (east is least, west is best) to get magnetic course. GPS navigation and all our apps have changed that, but the basics remain.

You might have missed how much the magnetic variation is changing. What makes the basics interesting is that the magnetic poles have recently been moving faster. For most of the period going back to 1832, the movement of the magnetic north pole has drifted along at about 15 kilometers per year. But since the mid-1990s it has accelerated to 55 kilometers per year. Additionally, the magnetic field strength has been decreasing. According to the European Space Agency (ESA), the magnetic field has lost nearly nine per cent of its strength on a global average in the last 200 years. The field strength decrease in the South Atlantic is even more, causing this area to be labeled the South Atlantic Anomaly.

Earth’s Geomagnetic Field

In its simplest terms the earth’s geomagnetic field is like an internal bar magnet. However, it is not vertical but is tilted so the magnetic north pole does not align with the earth’s ellipsoid’s north pole. The change in the tilt of the bar magnet is what causes the magnetic poles to move on the earth’s surface.

Recent studies show that approximately 42,000 years ago the tilt and field strength changed so much that the north and south poles swapped. They stayed that way for several hundred years then swapped back.

Magnetic variation is shown on Sectional charts.

Because of the lack of the shield provided by the earth’s magnetic field, the charged particle radiation from the sun increased. The humans at the time took to protecting themselves in caves. Much of the cave art came from this period. If you are a survivalist, you might stake out your nearest cave and brush up on your cave art just in case the poles flip again.

The magnetic field at the surface and airborne can be visualized as the iron filings on a sheet of paper suspended above the bar magnet. (Remember doing that in grade school science class?) However, this description is a super simplification.

The blue dots show the modeled magnetic north pole movement from 1590, progressing through red to yellow in 2020.

The true reason for the earth’s magnetic field is much more complicated and spans many fields of study. One reason it is not well understood is it involves so many different areas of expertise from Geology, Astrophysics, Geophysics, Plasma Physics and Electrodynamics. A January 2019 article in Nature magazine was titled “Earth’s magnetic field is acting up and geologists don’t know why. Erratic motion of north magnetic pole forces experts to update model that aids global navigation.”

FMS/GPS Navigation Systems

Modern electronic navigators use the earth’s magnetic field in two different ways. The navigators do all their calculations in lat/lon and true north. Then, just like you did as a student pilot, the navigators use the local magnetic variation to convert the leg from true north to magnetic north. To do this the computer has a “model” or a mathematical grid of the local magnetic variation.

There are different models but the World Magnetic Model (WMM) produced by the US/UK and NATO is commonly—but not universally—used in aviation. It is distributed by the National Oceanic and Atmospheric Administration (NOAA). It is updated every five years unless, like recently, there has been a larger than expected change. Right after the release of the 2015 WMM there was an unexpected change in 2016 which resulted in an unscheduled update.

Navigation databases also include the magnetic declination for each VOR station in the database. When the VOR station was installed the phasing of the two 30 Hz signals was adjusted so the radials were aligned to magnetic north. The amount of phase shift (the difference between magnetic north and true north) at the time of VOR alignment is recorded as the station’s declination. As time moves on, the local magnetic variation can change, but the station alignment will not be readjusted until it exceeds five degrees (Before 2017 it was three degrees and Canada still uses two degrees as their criteria). In 2016 there were 568 U.S. VORs that exceeded three degrees and 172 VORs that exceeded five degrees.

The RNAV systems that provide for Rho/Theta navigation (DME/VOR) use the lat/lon of the VORTAC and the DME distance along the VOR radial to determine the aircraft’s position. However, to accurately determine that position, the FMS also needs to know the station’s declination from the navigation database. Using the WMM as the station’s magnetic declination instead of the actual alignment declination leads to position errors. If the difference between the WMM’s magnetic variation and a station’s declination was three degrees, this would result in an FMS Rho/Theta position error of over three miles when 60 miles from the station. This is exactly what happened to one RNAV manufacturer in the 1980s and the FAA didn’t discover it for years.

So What?

If the WMM does not reflect the actual magnetic variation, then the calculated course may not match up with the published course. There have been advisories from aircraft manufacturers such as Boeing, Service Bulletins from avionics manufactures, and in certain cases Airworthiness Directives on the hazards of out-of-date WMMs. Different avionics manufacturers handle the WMM differently, but unfortunately the WMM is often placed in firmware and is not part of the normal navigation database update. (Garmin uses the International Geomagnetic Reference Field model that they deliver with navigation data.)

Quoting from a Universal Avionics August 19, 2011 Service bulletin “The WMM takes the historic rate of change of the Earth’s magnetic field and linearly extrapolates to the current year. The model is highly accurate during the base year, but accuracy slowly degrades over time … The FMS accepts the WMM as valid for 15 years after the base year … Operational significance varies both by area of flight and leg type. The areas where the greatest Mag/Var errors occur are Europe, Canada, the Northern U.S., and Western South America. Use of legs such as Course-to-Fix (CF) in SID procedures in Europe have produced the most significant errors reported … Operators who are experiencing Mag/Var related problems, especially in SID procedures, should discontinue flying the affected procedures using FMS and utilize other primary means of navigation…” While this was quoted from Universal Avionics, all RNAV/FMS/GPS/INS navigators have similar issues.

As stated before, the VOR radials are relative to magnetic north. If the variation is too great, then the ground station is supposed to be realigned and rechecked. The realignment itself is simple. However, the work does not stop at the VOR site. The FAA’s Flight Inspection group is required to fly the VOR in all quadrants to assure there are no discrepancies. All approaches based on that station must be reflown and republished. The stations new declination is recorded and must be changed in the FMS database that uses Rho/Theta navigation to supplement the GPS. The maintenance expense is one of the reasons the tolerance was increased by the FAA from three to five degrees. Plus, it’s wasteful to realign even one of the hundreds of VORs that are slated for future decommissioning as part of the minimum operational network (MON) program.

So, is there an immediate problem with the 172 VORs that exceed five degrees? No, as long as the FMS uses the stored declination for the station, the resulting lat/lon aircraft or waypoint position will be correct. A pilot flying the “raw signal” to or from the VOR would normally assume the crab angle is due to the wind or other inaccuracies. There is no immediate issue, but letting it get beyond five degrees is not good practice and can lead to other problems. Not immediately realigning the VORs saves on the FAA’s maintenance budget and the pilot’s navigation database costs.

Also, remember the runways are numbered relative to the magnetic heading. They will have to be renumbered if the variation gets too great. Then all the approach information and airport diagrams must be updated. Both printed and electronic representations are affected. The increase in the rate of change in the magnetic variation will add expenses to the aviation community.

True North Navigation

Why not make everything relative to true north rather than magnetic north? You would not have to worry about the changing magnetic variation. In the future this is possible. Today’s air carrier aircraft and heavy iron business jets have inertial navigators that do not have a flux valve/magnetic field sensor input. All the calculations are relative to true north. The final step is to use an earth’s magnetic field model to convert it to magnetic north.

On the air carrier aircraft, the heading on the Primary Flight Display and Navigation Display can be switched to true instead of magnetic north, eliminating the requirement for the magnetic model. Today this feature is only used when flying polar routes.

As you take a step down to an aircraft with an attitude and heading reference system (AHRS) or a slaved directional gyro, a flux sensor is an integral part of the system. That device senses the earth’s magnetic field and electrically “points” to magnetic north. Besides using it as the magnetic heading, the AHRS uses the flux valve input to assist in calculating the attitude of the aircraft.

In light aircraft, it’s the whiskey compass that aligns to magnetic north. Of course, any slaved compass system (including AHRS) also is aligned to magnetic north. Once your primary data is relative to magnetic north then all supplemental navigation data must be based on magnetic north. Said another way, if the heading is magnetic then all the navigation overlay data must also be based on the magnetic heading.

Additionally, all aircraft must have the same baseline that today is magnetic headings. You cannot very well have the airlines flying true headings and the rest of us flying magnetic headings. In the future the highly accurate gyros and accelerometers used in inertial navigators might come down in price where their use can become widespread. However, you’ll still have a huge legacy fleet that would have to be retrofitted.

So “in the future” is probably a long way off. Having said that, it is being discussed by IACO and IATA and it is a part of Nav Canada’s “Vision to 2030.” Nav Canada, the owner and operator of Canada’s civil air navigation system, is soliciting support for the change. They already have a northern area where all navaid and runway references are to true north.

Conclusion

It would be good to check with your avionics manufacturer to see what baseline magnetic model your system is using. If you hear something about changing from magnetic to true north navigation in the future, I hope this article will have provided you some useful background on the topic. And the next time you grumble about the high cost of the navigation database you should consider the ever-increasing instrument flight procedures that are being cranked out. Thankfully, the FAA is actively seeking to decommission seldom-used procedures, but that is the topic for another article.


Does It Affect Climate Change?

An interesting side line to this story is the research, mainly in Europe, into climate change being caused by changes in the Earth’s geomagnetic field. Life on earth is heavily dependent on the earth’s magnetic field shielding us from the sun’s charged-particle radiation. Research is exploring the effects of the changes in both the tilt and strength of the earth’s magnetic field in relation to the climate change we are experiencing. A French geophysicist, Vincent Courtillot, has been a focal point in this investigation. The U.S. appears to be locked in on fossil fuels being the sole reason for climate change. The governmental climate change programs are aimed at reducing the “greenhouse gasses.” Canada seems to be more open to discussion of other causes of climate change. An article in the May 2016 issue of Canadian Geographic—a magazine of The Royal Canadian Geographical Society was titled: “Is Climate Change Linked to Geomagnetism?—Crackpot theory or viable explanation?” It is a good summary with numerous links to other articles, both pro and con.


This article originally appeared in the September 2021 issue of IFR magazine.

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5 COMMENTS

  1. Interesting topic, but probably not of much value to the ‘magenta line’ fliers who make up an increasing percentage of the pilot population these days.

    On a related, and equally obscure, matter, note this article in the Daily Mail from two months ago:
    https://www.dailymail.co.uk/sciencetech/article-11378187/True-north-magnetic-north-grid-north-combine-Britain-time-history.html
    regarding the alignment of all three Norths, ‘true’, ‘magnetic’, and the British ‘grid’, near the Prime Meridian. This, in and of itself, is rare occurrence, especially in the fact that this convergence occurs at a point over land.

    Of course, this is irrelevant unless you are flying in Great Britain …

  2. How does the AHRS use the flux valve input to assist in calculating the attitude of the aircraft? I’m struggling with that. All of the flux valves I have worked on are pendulum mounted inside, so they are “level” with respect to local gravity.

  3. Interesting article, too bad the author couldn’t resist tossing in a reference to this fringe “theory” re. magnetic flips and climate change. It’s going to be hard enough for humanity to survive the slow-boil disaster (never mind all the species that will go extinct regardless), without articles like this needlessly muddying the waters. https://climate.nasa.gov/ask-nasa-climate/3104/flip-flop-why-variations-in-earths-magnetic-field-arent-causing-todays-climate-change/#:~:text=During%20a%20pole%20reversal%2C%20the,it%20down%20to%20Earth's%20surface.

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