# Do we need to know Earth's magnetic field locally?

I'm a high school student and in our course we have elements of earth's magnetic field (dip and other stuff) that lets us know the value and direction of magnetic field at any point on the planet.

I just wondered why is this in high school course so I asked my teacher why we need to know about Earth's magnetic field that much( approx. value and direction at any point on the planet). Like, the only use that comes to my mind is studying how the magnetosphere protects us from radiation, but I don't think it requires us to know that much about it(or does it?). One historical use could be for navigation, but now it's all GPS based.

And my teacher replied sometimes that magnetic field interfere in our experiments or machines and so we need to take into account the disturbance caused by that.

Any examples, on how the magnetic field interfere, or some other reasons we need to know about it?

• One very important example is the when measuring the electron spin g-factor (the most accurately measured constant in all of physics). – Feel My Black Hole Aug 14 at 9:09
• Also, the North Pole is actually a magnetic south pole. And it wanders around. It's currently on the move from Canada to Siberia. It doesn't move very fast but it does change - especially near the poles - so it's nice to have an electronic device like a cell phone which maintains the lastest field map. – Cinaed Simson Aug 14 at 10:21
• @CinaedSimson this still doesn't explain the need to know magnetic field across the entire planet; we could just look for the magnetic poles. – Sciencisco Aug 14 at 10:55
• The direction and strength of the field varies with your location - which may also vary with time. I'm presuming you need to know the magnetic field strength and direction where you're standing. Navigating with a compass alone is unreliable. Whether or not any of this is s problem depends upon how well you need to know the magnetic field. – Cinaed Simson Aug 14 at 18:19

Generally, the Earth's magnetic field is very small compared to the ones we create for experimental purposes (I think its a few $$\mu T$$). However, many experiments use very sensitive magnetic field sensors to measure very small magnetic fields. So for example, if the magnitude of the magnetic field you are trying to measure is of similar magnitude to the Earth's, that means your sensor also senses "noise", which in that case is the magnetic field of the Earth. For this case, we'd like to remove from our data the measurement which corresponds to the Earth's magnetic field.
Have in mind also that magnetic field $$\vec B$$ is a vector physical quantity, which means we also want to know the direction of the Earth's magnetic field (and also the ones we measure).