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The magnetic field will have no effect on a stationary electric charge. ( this means that the magnetic field is also stationary. )
If the charge is moving , relative to the magnetic field then there might be an effect, but the size and direction of the effect will depend on the direction of the electric charge as it moves through the field.
If the charge is moving parallel to the field there will be no effect on it. If the charge is moving at right angles to the field then it will experience a force that is mutually orthogonal to the field and direction of the motion. You really need diagrams to properly explain this
What else can I help you with?
A magnetic field does not interact with a?
A) stationary electric charge B) moving electric charge C) stationary magnet D) a moving magnet
If a stationary electron sat inside a stationary magnetic field would the magnetic field cause the electron to move?
Stationary charge don't produce a magnetic field. because it has no velocity in it, without flow of electron we can't find electricity and for that we have no magnetic field for a stationary charge. It produce only electric field.
Will changing the electric field will have no effect on the magnetic fields of a body?
Changing the electric field in a region can induce a magnetic field according to Maxwell's equations. This is known as electromagnetic induction. So, changing the electric field can indeed have an effect on the magnetic fields of a body.
Why will an electric current not be produced in a wire that is exposed to a stationary magnetic field?
An electric current will not be produced in a wire exposed to a stationary magnetic field because current generation relies on a change in magnetic flux through the wire, as described by Faraday's law of electromagnetic induction. When the magnetic field is stationary, there is no variation in magnetic flux, and thus no electromotive force (EMF) is induced in the wire. Therefore, without the movement or change in the magnetic field, electrons in the wire do not experience a net force to create a current.
Which are defected by electric and magnetic fields?
Any charged particle in motion especially not parallel to the magnetic field, current carrying conductor kept inclined or perpendicular to the magnetic field would get deflected. As far as electric field is concerned, even stationary charges would be displaced.
A magnetic field does not interact with a?
A) stationary electric charge B) moving electric charge C) stationary magnet D) a moving magnet
Can an electric field exist without a magnetic field?
Yes, an electric field can exist without a magnetic field. Electric fields are produced by electric charges, while magnetic fields are produced by moving electric charges. So, in situations where there are stationary charges or no current flow, only an electric field is present.
If a stationary electron sat inside a stationary magnetic field would the magnetic field cause the electron to move?
Stationary charge don't produce a magnetic field. because it has no velocity in it, without flow of electron we can't find electricity and for that we have no magnetic field for a stationary charge. It produce only electric field.
What is a magnetic field will be produced at some point in space if the electric field at the point?
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.
Does a stationary electron have a magnetic field?
Yes, a stationary electron does have a magnetic field.
What is the difference between a magnetic field and an electric field, and how do their properties and interactions differ?
A magnetic field is created by moving electric charges, while an electric field is created by stationary electric charges. The properties of a magnetic field include direction and strength, while an electric field has direction and magnitude. The interactions between magnetic fields involve attraction or repulsion of magnetic materials, while electric fields interact with charges to create forces.
Will changing the electric field will have no effect on the magnetic fields of a body?
Changing the electric field in a region can induce a magnetic field according to Maxwell's equations. This is known as electromagnetic induction. So, changing the electric field can indeed have an effect on the magnetic fields of a body.
Why will an electric current not be produced in a wire that is exposed to a stationary magnetic field?
An electric current will not be produced in a wire exposed to a stationary magnetic field because current generation relies on a change in magnetic flux through the wire, as described by Faraday's law of electromagnetic induction. When the magnetic field is stationary, there is no variation in magnetic flux, and thus no electromotive force (EMF) is induced in the wire. Therefore, without the movement or change in the magnetic field, electrons in the wire do not experience a net force to create a current.
Why force exerted by a magnetic field on stationary elctric dipole is zero?
The force on a charge by a magnetic field is given by F = Bq v sin@ v - the speed of the charged particle with charge q. B - magnetic field induction in tesla. @ is the angle between the velocity vector and magnetic field vector. As dipole is stationary, the speed of charges is zero. So the force = 0 Hence the result.
How could you use a magnetic field to make a stationary charge move?
By placing the stationary charge in a magnetic field that is changing over time, a magnetic force will be induced on the charge, causing it to move. This is known as electromagnetic induction. The moving magnetic field induces an electric field that then exerts a force on the charge, resulting in its movement.
What are the differences between a magnetic field and an electric field, and how do these two types of fields interact with each other?
A magnetic field is created by moving electric charges, while an electric field is created by stationary electric charges. These fields interact with each other through electromagnetic induction, where a changing magnetic field can induce an electric field and vice versa. This interaction is the basis for many technological applications, such as generators and transformers.
Which are defected by electric and magnetic fields?
Any charged particle in motion especially not parallel to the magnetic field, current carrying conductor kept inclined or perpendicular to the magnetic field would get deflected. As far as electric field is concerned, even stationary charges would be displaced.
