An inductor of the form shown in the figure below has dimensions: Cross-sectional area Ac = 3.7cm², Mean core length c = 30cm, N = 195 turns. Assuming a core permeability of μ = 800μ and neglecting the effects of leakage flux and fringing fields, calculate the air-gap length required to achieve an inductance of 7 mH. The air-gap length g = 17.2 mm. help (numbers)
An inductor of the form shown in the figure below has dimensions: Cross-sectional area Ac = 3.7cm², Mean core length c = 30cm, N = 195 turns. Assuming a core permeability of μ = 800μ and neglecting the effects of leakage flux and fringing fields, calculate the air-gap length required to achieve an inductance of 7 mH. The air-gap length g = 17.2 mm. help (numbers)
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Can you please answer the one in red and also round to at least 4 decimal places when applicable..
Transcribed Image Text:N turns
Core:
mean length
area A
permeability
Air gap
An inductor of the form shown in the figure below has dimensions: Cross-sectional area Ac = 3.7cm², Mean core length 1 = 30cm, N = 195
turns. Assuming a core permeability of μ = 800μo and neglecting the effects of leakage flux and fringing fields, calculate the air-gap length
required to achieve an inductance of 7 mH. The air-gap length g = 17.2
mm. help (numbers)
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