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The relationship between magnetic field strength and distance in a magnetic field is inversely proportional. This means that as the distance from the source of the magnetic field increases, the strength of the magnetic field decreases.
In the context of mastering physics, the relationship between the magnetic field between capacitor plates is that when a capacitor is charged, a magnetic field is created between the plates. This magnetic field is perpendicular to the electric field between the plates and is proportional to the rate of change of the electric field.
When the electric field equals the velocity multiplied by the magnetic field, it indicates a special relationship known as electromagnetic induction. This relationship shows how a changing magnetic field can create an electric field, and vice versa, according to Faraday's law of electromagnetic induction.
The relationship between the magnetic field and current in a conducting wire is described by Ampre's law, which states that a current flowing through a wire creates a magnetic field around it. The strength of the magnetic field is directly proportional to the current flowing through the wire.
Yes.
It is made by the movement of the earths core and magma field
The earths magnetic field results from deep in the earths core. Magnetic conduction from within the earths core is believed to be the cause of this.
In electromagnetism, the relationship between magnetic force and electric force is described by Maxwell's equations. These equations show that a changing electric field can create a magnetic field, and a changing magnetic field can create an electric field. This interplay between the two forces is fundamental to understanding how electromagnetism works.
The magnetic energy density is directly proportional to the strength of a magnetic field. This means that as the strength of the magnetic field increases, the magnetic energy density also increases.
because it has the hydro electric power to control the earths magnetic field
In an AC machine, the electrical frequency of the input power supply determines the rotational speed of the magnetic field, which interacts with the conductors in the machine to produce electrical power. The relationship between electrical frequency and magnetic field speed is directly proportional – an increase in electrical frequency results in a corresponding increase in the speed of the rotating magnetic field.
The relationship between velocity and the magnetic field equation is described by the Lorentz force equation. This equation shows how a charged particle's velocity interacts with a magnetic field to produce a force on the particle. The force is perpendicular to both the velocity and the magnetic field, causing the particle to move in a curved path.