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Consider the situation when almost all of the magnetic moments of a sample of a particular ferromagnetic metal are aligned. In this case, the magnetic field can be calculated as the permeability constant μ0 multiplied by the magnetic moment per unit volume. In a sample of iron, for example, where the number density of atoms is approximately 8.50 ✕ 1028 atoms/m3, the magnetic field can reach 1.99 T. If each electron contributes a magnetic moment of 9.27 ✕ 10−24 A · m2 (1 Bohr magneton), how many electrons per atom contribute to the saturated field of iron?

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Answer:

2.00976

Explanation:

B = Magnetic field = 1.99 T

[tex]\mu_0[/tex] = Vacuum permeability = [tex]4\pi \times 10^{-7}\ H/m[/tex]

[tex]\mu_b[/tex] = Magnetic moment of each electron = [tex]9.27\times 10^{-24}\ Am^2[/tex]

n = Number density of atoms = [tex]8.5\times 10^{28}\ atoms/m^3[/tex]

N = Number of electrons per atom

Magnetic field is given by

[tex]B=N\mu_0\mu_bn\\\Rightarrow N=\dfrac{B}{\mu_0\mu_bn}\\\Rightarrow N=\dfrac{1.99}{4\pi\times 10^{-7}\times 9.27\times 10^{-24}\times 8.5\times 10^{28}}\\\Rightarrow N=2.00976[/tex]

The number of electrons per atom contribute to the saturated field of iron is 2.00976

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