the core
The magnetic field becomes weaker as you move away from the electromagnetic source.
convection currents in the outer core (which is in liquid form) move the molten metal of the outer core around to create the magnetic field. The magnetic field then blocks certain rays from the sun.
A Magnetic Force
If we didn't have the earth's magnetic field, eventually all of the harmful and deadly rays from the sun would destroy life on earth.
The answer depends on the source of the magnetic field. For instance, the magnetic field due to a current carrying wire is given by the formula mu*I/(2*pi*r). Magnetic fields follow the principle super position so they can be added up no problem.
The Sun's core.
No. The source of earth's magnetic field is the molten inner core. The moon due to its proximity of course influences our magnetic field but it is to be considered a "weak effect".
Conductive plasma moves through the core of the sun because of convection. Localized magnetic fields created by the rotation of the sun create higher pressure without an increase in density. The magnetic field rises relative to the plasma until it reaches the outer edge of the sun. There it creates coronal loops and sunspots For source see related link..
The sun does not have 'so many magnetic fields.' It has 1 magnetic field that varies according to the distance from the sun.
Surrounding a magnet with a magnetic shell can allow the magnetic field to move farther away from its source.
no, only our earth has the magnectic energy The Sun has a very strong magnetic field.
Different latitudes of the sun rotate at different speeds. This tends to twist and bend the magnetic field lines.
The sun's magnetic field.
The moon
i have no idea yes
The source of Earth's magnetic field is best explained by _____.domainsthe dynamo theoryCoulomb's lawelectrostatics
If there is any effect at all, it would need to be a very tiny one. The only way that the Earth's rotation might affect the Sun would be in the way the Earth's rotation generates Earth's magnetic field. Our magnetic field affects the way that coronal mass ejections, huge bubbles of ionized gas from the Sun, behave when they get close. But the Sun has a magnetic field of its own, much stronger than the Earth's field, and it is unlikely that the Earth's magnetic field would affect the Sun or the Sun's magnetic field in more than a minuscule fashion.