the basic difference is the origin point. the magnetic field originates due to magnetic dipole and the electric field originates due to the charged particles.
An electric field surrounds electrically charged particles and time-varying magnetic fields. It can be said Electric fields are generated around particles that bear electric charge or where magnetic field is changing with time
Magnetic fields are produced by electric currents, which can be macroscopic currents in wires, or microscopic currents associated with electrons in atomic orbits. It can be said a moving charge produces magnetic field. In magnetic material moving electrons contribute magnetic field(In non-magnetic material, paired electrons spin in opposite directions, their magnetic fields cancel one another out)
E= cB = zH = zcD =Ew + Ev.
The difference between an electric field and a magnetic field is your reference frame. If your reference frame is space s= w + Ix + Jy + Kz then there is no time frame and there is no w=ct, then there is no magnetic field.
XE= [dEw/dw - Del.Ev , dEv/dw + Del Ew + Del x Ev]
If w=ct and time is allowed then
XE = [dEw/cdt - Del.Ev, dEv/cdt + Del Ew + Del x Ev]
XE = [dBw/dt - Del.Ev, dBv/dt + Del Ew + Del x Ev] and there is a mixed space-time reference frame.
An electric field is defined by the Electric Force divided by the charge per electron. A magnetic field is produced by a moving charged particle.
Zero.
The force is just one aspect of magnetism. For example, there is a magnetic field all around a magnet. Of course they are related, but "magnetism" is a wider term for the entire phenomenon - it may relate to the force, to the magnetic field, or to a few other things.
Transverse modes are classified into different types:TE modes (Transverse Electric) no electric field in the direction of propagation.TM modes (Transverse Magnetic) no magnetic field in the direction of propagation.TEM modes (Transverse Electromagnetic) no electric nor magnetic field in the direction of propagation.Hybrid modes nonzero electric and magnetic fields in the direction of propagation.
The magnetic field will be perpendicular to the electric field and vice versa.More DetailAn electric field is the area which surrounds an electric charge within which it is capable of exerting a perceptible force on another electric charge. A magnetic field is the area of force surrounding a magnetic pole, or a current flowing through a conductor, in which there is a magnetic flux. A magnetic field can be produced when an electric current is passed through an electric circuit wound in a helix or solenoid.The relationship that exists between an electric field and a magnetic field is one of electromagnetic interaction as a consequence of associating elementary particles.The electrostatic force between charged particles is an example of this relationship.
An electromagnet is a magnet that only generates magnetic forces when electricity is running through it, basically a magnet that can be turned on and off. An electromagnetic field is the magnetic force generated when an electromagnet is used.
As far as the electric field is stationary then no magnetic field. But when electric field is moving at a uniform speed then a magnetic field will be produced. This is what we call Lorentz magnetic field.
Electric current, magnetic field intensity, length of the conductor, angle between the electric current and magnetic field
An electric field can exist even without the presence of a magnetic field. An example of this is a stationary electric field.
Create relative motion between a magnetic field and a loop of wire.
(1).Guass's law is related to electric field and its effects. While as ampere's law is related to magnetic field.
for apex its: a quantum field, a gravitational field
The changing electric field will produce a magnetic field; the changing magnetic field will cause an electric field; both will propagate as a wave - an electro-magnetic wave.