Delve into the world that Alice would be at home in. According to what is known generally about the quanta of the electromagnetic spectrum is that it has the wave like nature that is like radio waves. It also has "packets" of energy that behave like particles. The LASER
light beam is being used in small chambers to move very small things around. When you have seen a LASER cut into very hard material you know about the force being imparted. When fusion happens a LASER will be driving it to be a sun on Earth. Electromagnets are used to move a variety of things like speakers and metal sorters. Computers rely on a lot of components with electromagnetism at their heart of operation. Hard drives, floppy drives, the power supply and the display. The ability of AC to be switched and converted using coils, caps, transistors and diodes shows how electromagnetic coupling is used to run most things we use.
A region where a magnetic force can be detected is typically within the magnetic field surrounding a magnet or an electric current. This field extends outwards from the source of the magnetism and can be detected using tools such as a magnetic compass or sensitive electronic instruments.
The gravity field is best considered as a static field, with the force depending only on the distance and the mass of the two objects. Although the Earth moves in the gravity field, the field itself does not.
When current is suddenly passed through a conductor in a magnetic field, it experiences a force due to the interaction between the magnetic field and the current. This force causes the conductor to move, resulting in electromagnetic induction and the generation of an electric current in the conductor.
The strong nuclear force opposes the electromagnetic force in the nucleus of an atom. It is responsible for binding protons and neutrons together in the nucleus.
Three laws of electromagnetic induction, and two laws of electrolysis, all proposed originally by English physicist Michael Faraday. The laws of induction are: (1) a changing magnetic field induces an electromagnetic force in a conductor; (2) the electromagnetic force is proportional to the rate of change of the field; and (3) the direction of the induced electromagnetic force depends on the orientation of the field. The laws of electrolysis are: (1) the amount of chemical change during electrolysis is proportional to the charge passing through the liquid; and (2) the amount of chemical change produced in a substance by a given amount of electricity is proportional to the electrochemical equivalent of that substance.
An electromagnetic field is considered a force because it can exert a push or pull on charged particles within the field. This force is a result of the interaction between electric and magnetic fields. Charged particles experience a force when they interact with the electromagnetic field, causing them to move or accelerate.
An electromagnetic field can exert a force on an electron, causing it to accelerate or move in a specific direction. The direction and magnitude of the force depend on the strength and orientation of the electromagnetic field.
Electromagnetic force is produced by the interaction of electric charges and magnetic fields. When a charged particle moves through a magnetic field, it experiences a force perpendicular to its velocity and the magnetic field lines. This force is the electromagnetic force.
The electromagnetic force is a force that is expressed as (or that "shows up as") a "field" or a "group of lines of force" around the source. Electromagnetic flux is a direct reference to those magnetic lines of force. Electromagnetic flux is the electromagnetic field or the group of electromagnetic lines of force around the source. All the following sentences say the same thing: The electromagnetic flux around the magnet was very high. The magnetic flux around the magnet was very high. The magnetic field around the magnet was very large. The flux around the magnet was very high. The field around the magnet was very large. There were a large number of magnetic lines of force around the magnet making the field strength very high.
It depends what you are talking about... Electromagnetic field Electromagnetic force Electromagnetic radiation Electromagnetic spectrum Electromagnetic therapy Electromagnetic waves ...they each have different meanings.
No. Earth's gravitational field is due to the large mass within it; the electromagnetic field is due to the movement of the metals in its core. There are also the standard differences between a gravitational and an EM field.
Energy is considered a force because it has the ability to do work and exert a force on objects. When an electrical current runs through a wire, it creates a magnetic field around the wire due to the flow of electrons. This magnetic field carries electromagnetic energy that can interact with other objects in its vicinity.
The key difference between the E field and H field in electromagnetic waves is that the E field represents the electric field, which is responsible for the electric force on charged particles, while the H field represents the magnetic field, which is responsible for the magnetic force on charged particles. In electromagnetic waves, these fields are perpendicular to each other and oscillate in phase.
Gravitational force field, electric force field, magnetic force field.
According to electromagnetic theory, a changing magnetic field induces an electric field. This phenomenon is known as electromagnetic induction, where the changing magnetic field creates a force that causes electrons to move, generating an electric current.
Well one way to look at it is that a photon IS an electromagnetic field. The photon is the gauge particle for the electromagnetic force. Without photons there would be no electromagnetic interaction force, and therefore no electromagnetic fields.
As light can also travel in vacuum so no extra force can change its direction.