Yes , by stopping its revolution throgh itself.
The fringing effect refers to the deviation of the magnetic field lines near the edges of a magnet or magnetic material. As the magnetic field lines extend beyond the edges, they tend to converge or diverge, resulting in uneven distribution and strength of the magnetic field in the fringing region. This effect is particularly important in applications where precise control and uniformity of the magnetic field are required.
The Earth's magnetic field is strongest at the North and South magnetic poles, which are not the same as the geographic North and South poles. The magnetic field strength varies at different locations on the Earth's surface.
The AC Hall effect is used to measure the sign and magnitude of an alternating magnetic field, whereas the DC Hall effect is used to measure the sign and magnitude of a steady magnetic field. In AC Hall effect, the magnetic field changes direction periodically, while in DC Hall effect, the magnetic field is constant.
The most accepted theory for the Earth's magnetic field is that it is generated by the movement of molten iron and nickel in the outer core of the Earth, leading to the generation of a self-sustaining magnetic field through a process called the geodynamo effect.
No, but at the poles the field (because of the orientation of the field lines) offers the least protection.
= An effect of the magnetic field is "Van Allen radiation belt" =
Because it is far too small to have any effect. The Earth's magnetic field is thought to be generated thousands of miles underground by moving rivers of iron.
Yes.
It is made by the movement of the earths core and magma field
The earths magnetic field results from deep in the earths core. Magnetic conduction from within the earths core is believed to be the cause of this.
because it has the hydro electric power to control the earths magnetic field
It is Earths' "Magnetosphere".
earths magnetic field is generated by the circulation of liquid metal.
It is Earths' "Magnetosphere".
Earth's magnetic field is primarily generated in the outer core layer of the planet. It is believed that the convection of molten iron and nickel within this layer, combined with the Earth's rotation, creates a dynamo effect that generates the magnetic field.
The Earth's Magnetic field.
Earth's magnetic field is strongest at the magnetic North Pole and the magnetic South Pole.