Magnetic Circuits Problems And Solutions Pdf Apr 2026

MMF: (\mathcalF = NI = 200 \times 2 = 400 \ \textA-turns) [ \Phi = \frac\mathcalF\mathcalR_c = \frac400398 \times 10^3 \approx 1.005 \ \textmWb ]

Flux density: [ B = \frac\PhiA = \frac1.005\times 10^-35\times 10^-4 = 2.01 \ \textT ] Good – below saturation for typical iron. Solution 2 – With Air Gap (a) Core reluctance same as above: (\mathcalR_c \approx 398 \ \textkA-turns/Wb) Gap reluctance: [ \mathcalR g = \fracl_g\mu_0 A = \frac0.001(4\pi\times 10^-7)(5\times 10^-4) \approx 1.592 \times 10^6 \ \textA-turns/Wb ] Total reluctance: [ \mathcalR total = 3.98\times 10^5 + 1.592\times 10^6 = 1.99 \times 10^6 \ \textA-turns/Wb ] magnetic circuits problems and solutions pdf

Flux: [ \Phi = \frac4001.725\times 10^6 \approx 0.232 \ \textmWb ] MMF: (\mathcalF = NI = 200 \times 2

Total reluctance seen by MMF: [ \mathcalR_total = \mathcalR c + \mathcalR eq,branches = 132.6 + 331.55 = 464.15 \ \textkA-t/Wb ] MMF = (300 \times 1.5 = 450 \ \textA-turns) [ \Phi_c = \frac450464.15 \times 10^3 \approx 0.969 \ \textmWb ] Then (\Phi_o = \Phi_c / 2 = 0.4845 \ \textmWb) magnetic circuits problems and solutions pdf

Let’s find gap length that gives (\mathcalR total = 312.5\ \textkA-t/Wb): [ \mathcalR g = \mathcalR total - \mathcalR iron = 312.5 - 497.4 = -184.9 \ \text(negative → impossible) ] Conclusion: The core is saturating or the permeability has dropped. A better problem would give (\Phi_healthy) first.