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This article describes the inductance formula and how to calculate inductance. When electric current flows through the inductor, a magnetic field is produced around it. The strength of the magnetic field depends on the inductance, current, and number of turns in a coil.
The inductance is $$L = \frac{\lambda}{I} = \frac{N\Phi}{I} $$ where \$\lambda\$ is the flux linkage - the magnetic flux links N turns.
When current is turned on in a solenoid, a magnetic field is generated that tries to stop the solenoid from being turned on. This property is called inductance.
5 lis 2020 · Faraday’s law states that the EMF induced by a change in magnetic flux depends on the change in flux Δ, time Δt, and number of turns of coils. Faraday’s law of induction can be used to calculate the motional EMF when a change in magnetic flux is caused by a moving element in a system.
Calculate the self-inductance of a toroid which consists of N turns and has a rectangular cross section, with inner radius a , outer radius b and height h , as shown in Figure 11.2.3(a).
Imposing an electric field on a conductor gives rise to a current which in turn generates a magnetic field. One could then inquire whether or not an electric field could be produced by a magnetic field. In 1831, Michael Faraday discovered that, by varying magnetic field with time, an electric field could be generated.
The self-inductance of a solenoid is \[L = \dfrac{\mu_0 N^2A}{l}(solenoid),\] where \(N\) is its number of turns in the solenoid, \(A\) is its cross-sectional area, \(l\) is its length, and \(\mu_0 = 4\pi \times 10^{-7} \, T \cdot m/A\) is the permeability of free space.
