This is always being studied. For frequencies below microwaves there appear to be virtually zero effects.
Does a magnetic field have an effect on a capacitor when it is placed between the plates? Yes, a magnetic field between the plates of a capacitor would have some effect. Without more information it is difficult to determine how much.
you would induce voltage therefore chanfing the magnetic field
magnetic force
magnetic field line is an imaginary line showing magnetic energy between a north and south pole .
A dimagnetic material produces a magnetic field that opposes an external field. A paramagnetic materia, on the other hand, produces a magnetic field that increases an external field. Dimagnetism and paramagnetism are induced when an object is placed in a magnetic field.
Magnetic force is present around the electric field which is also known as electro-magnetic field.
Electro Magnetic Field
It's the force that is brought by a magnetic field. The Sun uses electro-magnetic waves to provide solar radiation to us because it can travel through a vacuum.
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.
ANY electrical current will be surrounded by a magnetic field. In an electromagnet, this magnetic field is often amplified by an iron core.
Electro magnetic induction...................
Yes it should be.Because our body has its own certain electro-magnetic fields.There should be certain effect on physiology by sleeping in direction with earth magnetic field. === === No. There is no evidence that a human can detect or react to the earth's magnetic field, so it makes no difference which direction you lie in when you sleep.
What causes it's magnetic field is the dynamo effect.
Electricity and magnetism are closely related. When you pass a current through a conductor, a magnetic field is produced. In continuously changing current, a disturbance is caused in the form of a wave, in both the magnetic field and electrostatic field. Hence electro-magnetic. Examples of this wave extends across a whole spectrum, including radio waves, x-rays and light.
The Relationship is the 'Flux' of the magnetic field.Changing the amount of energy will not effect the wavelength (except to choke off the field when it becomes too dense)and increasing the wavelength will increase the energy density (flux)
A non-magnetic matieral is one where there are no (or very few) free electrons to conduct the electro-magnetic field. One basic example is plastic.
It's a force created by electrically charged particles such as protons, ions, electrons etc. Electro-magnetic activity is one of the main interactions in the universe, and probably the second most important one after gravity. It's simply, everywhere. An electromagnetic being basicly creates an electric field (or a magnetic field) and interacts with other matter. Electro-magnetic activity can be calculated/measured using the Feynman Diagram.