How to calculate the magnetic flux density of a solenoid? The magnetic flux is a product of a magnetic field in a solenoid and its area, given by the formula Φ=BA where B is a magnetic field and A is the area of the solenoid.
#Magnetic flux solenoid formula free#
Where n is the total number of turns of a coil per unit length of the solenoid, m 0 is the permeability of free space, I is a current in a solenoid, and A is its area. The magnetic flux of a solenoid is calculated by using the formula, Φ=m 0nIA. Let us see how to find the magnetic flux in a solenoid. The magnetic flux through a solenoid also depends upon the angle with the normal of the cross-sectional area. How to find the magnetic flux of a solenoid?
The magnetic flux is reasonable to impose force on the particle in the magnetic field region. The higher the density, the stronger is the field. The magnetic flux density can determine the strength of the field. The magnetic flux density is equivalent to the magnetic field of the solenoid. It is the number of flux lines passing from a unit volume. The magnetic flux density in a solenoid is the ratio of magnetic flux penetrating through the area. Let us elaborate on the magnetic flux density in a solenoid in detail. The strength of the magnetic field is dependent on the magnetic flux density. What is magnetic flux density in a solenoid? As the distance between the center axis of the solenoid and the point of consideration in the area surrounding it increases, the distance between the two parallel loops also increases. The magnetic flux lines are always parallel and never overlap or cross another magnetic flux line or loop.
The magnetic flux lines pass from the solenoid’s core to the surrounding region in close circular loops. The magnetic flux in a solenoid is the total magnetic field strength in the solenoid times the total area of the solenoid. Let us discuss the magnetic flux in a solenoid briefly. The flux is the imaginary lines passing through the area of the conductor. In this article, let us discuss the magnetic flux, its density and linkage in detail. The magnetic flux is consistent in the inner region of the solenoid and negligible outside the same. The magnetic flux in the solenoid depends upon the magnitude and direction of the current in the coil and the number density of the turns of a coil. The magnetic flux follows the longitudinal path along the length of the solenoid and is constant through the region at any point. Let us see about magnetic flux in a solenoid. The magnetic flux in a closed circuit is due to the moving current in a coil wounded across its length.
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