Our planet behaves as though a giant bar magnet is buried deep within the earth, and lying slightly out of alignment with the earth's axis of rotation. The points where this imaginary bar magnet's magnetic field lies perpendicular to the earth are named Magnetic North and Magnetic South respectively. These points do not coincide with the earth's geographic poles, which are called True North and True South respectively. It's very important to understand that 'Magnetic North' and 'Magnetic South' describe locations, and have nothing whatsoever to do with their magnetic polarities. In fact, these locations are not fixed, but constantly move relative to True North and True South, and the locations must be taken into consideration for the purpose of navigation.
A freely-suspended magnet (or a compass needle) will align itself with the earth's magnetic field and will always come to rest pointing in a Magnetic North - Magnetic South direction. Because of this, one end of the magnet was originally named its 'North-Seeking Pole', while the other end was named its 'South-Seeking Pole'. Over time, we have dropped the word 'seeking' from these expressions, and now call the ends of a magnet (or compass needle) its 'north pole' and its 'south pole' which, by common consent, are used to identify the magnetic polarities of a magnet. Because 'unlike poles attract', this means that the magnetic polarity of Magnetic North (i.e. the location) must be a south pole, and the magnetic polarity of Magnetic South must be a north pole.
To summarise, the terms 'Magnetic North' and 'Magnetic South' are locations so-named to differentiate them from 'True North' and 'True South' for the purpose of navigation. Because the north pole of a magnet or compass needle is attracted towards Magnetic North, that location's magnetic polarity is south. And, of course, the magnetic polarity of Magnetic South location is north.
From geological records obtained from magnetized rock strata and other natural materials, it is well-known that the magnetic poles have actually "flipped over" several times during the many aeons of the earth's long history (although not during man's existence). Should this do so again in the future, it will have no affect whatsoever on the locations or on naming of 'Magnetic North' and 'Magnetic South', although their magnetic polarities will, of course, reverse!
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Your expression, 'earth's north magnetic pole' is, at best, confusing. Are you referring to 'Magnetic North', which is a location and not the polarity of that location? Or are you referring to the magnetic polarity of this location, which is a south pole?
If the former, then a compass indicates the direction of Magnetic North. If the latter, then earth's north magnetic pole is located at Magnetic South. In other words, a compass needle points to Magnetic North because it is attracted by its south magnetic polarity.
Just to expand somewhat on this answer... 'Magnetic North' and 'Magnetic South' are so-named to differentiate their locations from 'True North' and 'True South'. In other words, 'Magnetic North' and 'Magnetic South' are locationsand not magnetic polarities. In fact, the magnetic polarity of True North is a south pole, and the magnetic polarity of True South is a north pole. I would also argue that the terms 'Magnetic North (or South) Pole' is confusing, because the location is not really a 'pole' in either the geographic or magnetic sense. By calling Magnetic North, a 'pole' causes confusion, making some students confuse their location ('Magnetic North') with their polarity ('south')!
Apex answer: Wandering
Wandering slowly with no pattern
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The best way to describe this would be to think of a magnet as a series of legos.Imagine you have a stick of legos (those obnoxious 2 by 2 squares that can't be used for anything) stacked ten high.No matter how many times, or where, you break the Lego stick, you still end up with one end having bumps and the other having a gaping hole.The same is true for a magnet: at the smallest level, a magnet is a dipole, or a "particle", if you will, with one north side and one south side. Dipole stack on each other like legos in this metaphor we're using in such a way that, no matter where you break the magnet, you still have a dipole on the top pointing north and a dipole on the bottom pointing south.Now, there is a hypothetical concept known as a "monopole" (think of a magnet that's ONLY north or ONLY south, like thinking of a Lego brick with ONLY bumps or ONLY holes), but we've never seen one, and physicists doubt they exist.
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this article is incorrect about earths magnetic effect on the body. Studies show that the body is south magnetic interior and north magnetic exterior in the daytime and this switches at night. It is this switch to inner north that stimulates the secretion of melatonin which puts us to sleep. so head facing north is the best for sleep. But I find everyone is different. and the earths magnetic field has been weakening for some time and is very low so not having its full effect.
The Richter Scale best describes how much energy an earthquake releases also known as it's magnitude.
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assorted gases
Presently, the ejected ring theory best describes the origin of moon.
Magnetic field
all ofthe changes on earth surface occur slowly
Volcanoes
The axis is always aimed toward a point in the sky near Polaris :))
The North Pole is located several hundred feet beneath the Arctic Ocean. It has only a physical location, and thus its shape would be a mathematical point.
Similar to those in the north a+
Which would best describe the weather during spring in north carolina
In our solar system has magnetic pole reversal
south just look at a map