Magnetic domains have the tendency to align with magnetic fields. The Earth's magnetic field is relatively weak, but I would expect SOME alignment.
Mercury and salt are not inherently magnetic, so they will not be affected by a magnetic force in the same way that magnetic materials like iron or nickel would be. Therefore, a magnetic force would not repel mercury and salt.
Particles in space, such as charged particles in solar wind or cosmic rays, can have magnetic fields associated with their movement. These magnetic fields are generally aligned with the direction of particle motion and can interact with the magnetic fields present in space, like those of planets or stars. The strength and orientation of these magnetic fields can vary depending on the specific conditions in different regions of space.
Yes if the moon fell on earth it would definetly produce a noticable magnetic field.
The height of the Mercury column would decrease.
Mercury, although it does posses some interesting physical and chemical properties, should not be attracted to a magnet. It is considered to be diamagnetic, which means it would actually oppose a magnetic field and repel. If you have more questions on mercury or diamagnetism.
Magnetic domains have the tendency to align with magnetic fields. The Earth's magnetic field is relatively weak, but I would expect SOME alignment.
Mercury and salt are not inherently magnetic, so they will not be affected by a magnetic force in the same way that magnetic materials like iron or nickel would be. Therefore, a magnetic force would not repel mercury and salt.
There are still magnetic fields in space - especially if you remain close to Earth. But magnetic compasses are usually designed to use gravity, which you won't have if you are in free fall. A specially-designed magnetic compass would work, though.
List the fields that you would expect to find in a database for a shop selling computer games.
Magnetic fields do not require a medium to propagate, unlike mechanical waves. The direction of the magnetic field lines represent the direction a north magnetic pole would move if placed in the field. Magnetic fields can only be produced by moving charges or currents, and not by stationary charges. Magnetic fields exert forces on moving charges according to the Lorentz force law.
I would expect Mercury to be the hottest planet, since it's the closest one to the sun. That's why it's so surprising to learn that Venus is hotter than Mercury.
No, electromagnetic waves require the mutual generation of electric and magnetic fields. This reciprocal relationship allows the waves to propagate through space as self-sustaining oscillations. If only one field could generate the other but not vice versa, electromagnetic waves would not exist.
Particles in space, such as charged particles in solar wind or cosmic rays, can have magnetic fields associated with their movement. These magnetic fields are generally aligned with the direction of particle motion and can interact with the magnetic fields present in space, like those of planets or stars. The strength and orientation of these magnetic fields can vary depending on the specific conditions in different regions of space.
the needle points in the direction the magnetic fields wish. The gravity pulls the compass nearer and nearer the magnetic fields.
The height of the Mercury column would decrease.
The height of the Mercury column would decrease.