what is the difference between matter and electrostatics
Both electrostatic fields and magnetic fields can influence objects in a vacuum, so EM waves (the combination of varying electromagnetic and electrostatic fields) have influence through a vacuum, that is, in the absence of a physical medium.
There's no such process as 'solving an equation for matter'. The only variables that appear anywhere in Maxwell's equations are the electrostatic and magnetic fields, and their products. There's no place to stick matter in any of his four equations.
Heck if i knew i wouldn't be on this website!!!!!!!!!
Electromagnetic and electrostatic fields are present. The strength of each field is dependent upon the components in the electrical circuit.
Gregory A. Kallio has written: 'Interaction of electrostatic and fluid dynamic fields in wire-plate precipitators' -- subject(s): Electrostatic precipitation
A dielectric material is a substance that is a poor conductor of electricity, but an efficient supporter of electrostatic fields
There are only two forces that act at a distance:gravity, andelectromagnetism.Magnetic fields are sometimes referred to as a third force, however magnetism and electrostatic forces are both examples the electromagnetic force.
i am awesome. no matter what. this is not possible. goodbye have a nice day.
Some forces, such as gravity or the electrostatic force, can act without direct contact. If a force is applied over a certain distance (such as, when an object falls), work is done, i.e., energy is transferred. Ah, but what is direct contact? One electrostatic field pushing against another? If I touch something, it is the electrostatic fields pushing against each other. There is no direct contact!
It adds organic matter content to the fields, primarily.
A charged object is surrounded by a standing electrostatic field.
The force of attraction in an ionic bond is electrostatic and in this unlike charges attract and like charges repel. This is similar to magnetism where opposite poles attract and like poles repel. Both electrostatic and magnetic fields obey the inverse square law.