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When a blank wave that is produced by a vibrating electric charge is an electromagnetic wave?
When a vibrating electric charge produces a changing electric field, it in turn generates a changing magnetic field, leading to the creation of an electromagnetic wave. This wave consists of oscillating electric and magnetic fields that propagate through space at the speed of light.
What is the relationship between electromagnetic waves and vibrations?
Electromagnetic waves are created by vibrating electric charges. When an electric charge oscillates, it creates a changing electric field which in turn generates a changing magnetic field. This interplay of changing electric and magnetic fields propagates through space as electromagnetic waves.
What consists of a vibrating electric field and a magnetic field?
An electromagnetic wave consists of a vibrating electric field and a magnetic field that oscillate in perpendicular directions to each other and propagate through space. These fields are generated by the movement of charged particles and carry energy and information.
How does a vibrating electric charge produce an electromagnetic wave?
When an electric charge vibrates, it creates changing electric and magnetic fields. These changing fields propagate through space, creating electromagnetic waves. The oscillating electric field produces a magnetic field, and the changing magnetic field then produces an electric field, thus creating a self-sustaining wave.
Would a stationary electron produce an electromagnetic wave?
My answer is NO, since vibrating electric charge cannot exist independently (conservation of electric charge cannot be violated). Vibrating electric charge can only exist as part of electric charge wave.
What is in a vibrating electric and a magnetic field?
they both have a Electromagnetic wave.
When a blank wave that is produced by a vibrating electric charge is an electromagnetic wave?
When a vibrating electric charge produces a changing electric field, it in turn generates a changing magnetic field, leading to the creation of an electromagnetic wave. This wave consists of oscillating electric and magnetic fields that propagate through space at the speed of light.
What is the relationship between electromagnetic waves and vibrations?
Electromagnetic waves are created by vibrating electric charges. When an electric charge oscillates, it creates a changing electric field which in turn generates a changing magnetic field. This interplay of changing electric and magnetic fields propagates through space as electromagnetic waves.
What consists of a vibrating electric field and a magnetic field?
An electromagnetic wave consists of a vibrating electric field and a magnetic field that oscillate in perpendicular directions to each other and propagate through space. These fields are generated by the movement of charged particles and carry energy and information.
How does a vibrating electric charge produce an electromagnetic wave?
When an electric charge vibrates, it creates changing electric and magnetic fields. These changing fields propagate through space, creating electromagnetic waves. The oscillating electric field produces a magnetic field, and the changing magnetic field then produces an electric field, thus creating a self-sustaining wave.
Would a stationary electron produce an electromagnetic wave?
My answer is NO, since vibrating electric charge cannot exist independently (conservation of electric charge cannot be violated). Vibrating electric charge can only exist as part of electric charge wave.
Is an electric field associated with an electromagnetic wave constant in time?
No, the electric field oscillates in magnitude and direction as it propagates in the electromagnetic wave.
What is the relationship between the electric field and magnetic field in electromagnetic waves?
In electromagnetic waves, the electric field and magnetic field are perpendicular to each other and oscillate in sync. When the electric field changes, it creates a magnetic field, and vice versa. This relationship allows electromagnetic waves to propagate through space.
How does a changing magnetic field produce an electric field according to electromagnetic theory?
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.
What does electromagnetic waves means?
An electromagnetic wave, in its simplest description, is a wave that as it propagates keeps converting its magnetic field into an electric field while converting its electric field into a magnetic field.
Where do you get electromagnetic energy?
•Electromagnetic energy is a combination of electric and magnetic fields vibrating in relation to another. •Includes -Power -Radio waves -Infrared light -Visible light -Ultraviolet light -X rays -Gamma rays -Cosmic rays •Electromagnetic waves are formed when an electric field (shown as blue arrows) couples with a magnetic field (shown as red arrows). •The magnetic and electric fields of an electromagnetic wave are perpendicular to each other and to the direction of the wave.
What are electromagnetic oscillators?
when a charge oscillates for example in a capacitor it produce an electric field; which in turns produce a magnetic field in an inductance. the magnetic field oscillates perpendicular to the electric field and an electromagnetic waves perpendicular to both is produced.
