Example problems of magnetic circuits: Difference between revisions
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Given: |
Given: |
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A copper core with susceptibility <math> \chi_m = -9. |
A copper core with susceptibility <math> \chi_m = -9.7 × 10^{-6} </math> |
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length of core L = 1 m |
length of core L = 1 m |
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Solution: |
Solution: |
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First we need to find the permeability of copper <math> \mu </math> given by the equation <br> <math> \mu = \mu_0 (1 + \chi_m)</math> <br> <br> |
First we need to find the permeability of copper <math> \mu </math> given by the equation <br> <math> \mu = \mu_0 (1 + \chi_m)</math> <br> <br> |
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Which yeilds <math> \mu = 4 |
Which yeilds <math> \mu = 4 × \pi × 10^{-7}(1+-9.7 × 10^{-6}) = 1.2566 × 10^{-6} </math> <br><br> |
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Now with this, the length and cross sectional area of the core we can solve for reluctance <math> R_c </math> by: <br> |
Now with this, the length and cross sectional area of the core we can solve for reluctance <math> R_c </math> by: <br> |
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Revision as of 17:50, 10 January 2010
Given:
A copper core with susceptibility Failed to parse (SVG with PNG fallback (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \chi_m = -9.7 × 10^{-6} }
length of core L = 1 m
Gap length g = .01 m
cross sectional area A = .1 m
current I = 10A
N = 5 turns
Find: B
Solution:
First we need to find the permeability of copper given by the equation
Which yeilds Failed to parse (syntax error): {\displaystyle \mu = 4 × \pi × 10^{-7}(1+-9.7 × 10^{-6}) = 1.2566 × 10^{-6} }
Now with this, the length and cross sectional area of the core we can solve for reluctance by:
<math> R_c = \frac{L}{\mu A} = \frac{1}{1.2566x10^{-6}*.1} = 7.96x10^{6}