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This question is conventionally said to be NO. Maxwell's Equations to define Del.Bv =0! This is a definition of the magnetic B field as circular field with no poles.
This is another example of science not recognizing quaternions in Physics. The magnetic field has a scalar part and a vector part:
E= Es + Ev = c(Bs + Bv)
The relation E=cB was the key to Maxwell identifying Light with Electricity. This means if there is a scalar Es there is a scalar Bs= Es/c and if there is a scale Es there is a scalar Ds = Es/zc= epsilon Es.
All the elxctromagnetic fields are related by
E=cB=zH=czD giving B=zD!
Maxwell's Equations are not correct in this matter. The real definition is :
dBs/dr=Del.Bv
cDBs/dr = cDel.Bv
dEs/dr = Del.Ev
dDs/edr = Del.Ev
Del.Ev is not idnetically zero then Del.E/c is not identically zero unless dDs/dr is identically zero/ and that is not true for all Ev. Del.Ev = rho/epsilon in many cases where there is charge density.
The electromagetic fields are related by E=cB=zH=zcD thus B=zD where z is the free space impedance Constant z=375 Ohms.
Thus dBs/dr = dzD/dr= zdDs/dr = zrho where rho is the charge density. this means that
in general zdDs/dr= Del.Bv so Del.Bv is zero only when there is no charge density, otherwise if there is a charge density there is a "magnetic pole", zdDs/dr= zrho.
This would mean for an atom, the nucleus has a charge density and a magnetic field. A collection of atoms may have a charge density in a certain direction but not overall.
Magnetic poles exist in this definition and Maxwell's Equations represent a limited condition. There are no poles under Maxwell's Condition, that there is no charge density.
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True or false the magnetic poles are not located exactly at the geographic poles?
True. The magnetic poles are not exactly aligned with the geographic poles. The Earth's magnetic poles can shift and move over time due to changes in the planet's magnetic field.
Is earth's magnetic poles and its geographic poles are in the same place?
No, Earth's magnetic poles and its geographic poles are not in the same place. The geographic poles are the points where Earth's axis of rotation intersects its surface, while the magnetic poles are where the planet's magnetic field lines converge and enter/exit the Earth. The magnetic poles are constantly moving and can deviate from the geographic poles.
Does the earth spin on its true poles or magnetic poles?
The Earth spins on its true or geographic poles, which are the points where the planet's axis of rotation intersects its surface. The magnetic poles, on the other hand, are where the Earth's magnetic field lines are perpendicular to its surface, and they do not coincide exactly with the geographic poles.
Are earths magnetic poles located on its axis?
No, Earth's magnetic poles are not located exactly on its geographical poles. The magnetic poles are located slightly off-axis and can shift over time due to changes in the Earth's magnetic field.
How are positions in geographic compared to magnetic poles?
Geographic poles refer to the Earth's axis points where it meets the surface (North and South Poles), while magnetic poles refer to points where the Earth's magnetic field is the strongest. These poles do not align exactly; the geographic poles are fixed, while the magnetic poles can shift position over time due to changes in the Earth's magnetic field.
In what way are magnetic poles very different from electric charges?
Magnetic poles are always found in pairs (North and South), unlike electric charges which can exist independently. Magnetic poles also do not exist as isolated charges, while electric charges can be found separately. Additionally, magnetic charges do not exist as distinct entities like electric charges.
What is it called when earths magnetic poles change poles?
This is known as magnetic reversal when earth's magnetic poles change places.
True or false the magnetic poles are not located exactly at the geographic poles?
True. The magnetic poles are not exactly aligned with the geographic poles. The Earth's magnetic poles can shift and move over time due to changes in the planet's magnetic field.
Are there positive and negative magnetic charges analogous to positive and negative electric charges?
No, there are no isolated magnetic charges that are analogous to positive and negative electric charges. Magnetic fields always exist as dipoles with a north and south pole connected together, whereas electric fields can exist as isolated positive or negative charges. This fundamental difference is a key distinction between magnetism and electricity.
Is earth's magnetic poles and its geographic poles are in the same place?
No, Earth's magnetic poles and its geographic poles are not in the same place. The geographic poles are the points where Earth's axis of rotation intersects its surface, while the magnetic poles are where the planet's magnetic field lines converge and enter/exit the Earth. The magnetic poles are constantly moving and can deviate from the geographic poles.
Do magnetic poles that are alike attract?
alike magnetic poles do not attract because according to the law of magnetism, it is stated that unlike magnetic poles attract and alike poles repel.
Does the earth spin on its true poles or magnetic poles?
The Earth spins on its true or geographic poles, which are the points where the planet's axis of rotation intersects its surface. The magnetic poles, on the other hand, are where the Earth's magnetic field lines are perpendicular to its surface, and they do not coincide exactly with the geographic poles.
Are earths magnetic poles located on its axis?
No, Earth's magnetic poles are not located exactly on its geographical poles. The magnetic poles are located slightly off-axis and can shift over time due to changes in the Earth's magnetic field.
Do magnetic poles that are not like attract?
Yes, magnetic poles that are not like (i.e., north and south poles) attract each other due to the magnetic force between them. This is based on the principle that opposite magnetic poles attract while like magnetic poles repel each other.
How are positions in geographic compared to magnetic poles?
Geographic poles refer to the Earth's axis points where it meets the surface (North and South Poles), while magnetic poles refer to points where the Earth's magnetic field is the strongest. These poles do not align exactly; the geographic poles are fixed, while the magnetic poles can shift position over time due to changes in the Earth's magnetic field.
What is it called when Earth's magnetic poles chang places?
This is known as magnetic reversal when earth's magnetic poles change places.
Where are the magnetic forces the strongest?
magnetic poles
