It can probably be characterized by any of the two - the electric vector, or the magnetic vector.
No they are caused by changes in magnetic and electrical fields. When a magnetic field changes it causes an electric field that is perpendicular to it. And vice versa a changing electric field causes a perpendicular magnetic field. These changing fields propagate outwards at the speed of light and are what is meant by an electromagnetic wave.
w What are electric and magnetic properties of particle?
The magnetic force acts only on moving electric charges; A constant electric current produces an unchanging magnetic field and a changing electric current produces a changing magnetic field.
Yes; if the storage is on magnetic media then that can be altered by magnetic and electric fields.
Electric fields are similar to magnetic fields, and can be "compressed" by the imposition of other electric or magnetic fields.
Light possesses both properties of a wave and a particle. As a wave it is an oscillating electric and magnetic field. As a particle, light is a packet of energy that is treated as a point particle that does not have an electric field without a charge.
Magnetism or magnetic field is the attraction for iron , associated with electric currents as well as magnets characterized by fields of force
No they are caused by changes in magnetic and electrical fields. When a magnetic field changes it causes an electric field that is perpendicular to it. And vice versa a changing electric field causes a perpendicular magnetic field. These changing fields propagate outwards at the speed of light and are what is meant by an electromagnetic wave.
w What are electric and magnetic properties of particle?
The magnetic force acts only on moving electric charges; A constant electric current produces an unchanging magnetic field and a changing electric current produces a changing magnetic field.
Yes; if the storage is on magnetic media then that can be altered by magnetic and electric fields.
A condition found in the region around a magnet or an electric current, characterized by the existence of a detectable magnetic force at every point in the region and by the existence of magnetic poles.Read more: magnetic-field
Electric fields are similar to magnetic fields, and can be "compressed" by the imposition of other electric or magnetic fields.
No. An electromagnetic wave IS electric and magnetic fields.
Yes, electric current does create magnetic fields
Vibrations in electric and magnetic fields create electromagnetic radiation.
The deflection of a magnetic compass in the presence of an electric current, is evidence that an electric current produces a magnetic field.