Example: Ampere's Law: Difference between revisions

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From Eq. 5-1 <math>H_m = \frac{N*i}{L_m} = \frac{50*5}{.393}\approx 636</math>
From Eq. 5-1 <math>H_m = \frac{N*i}{L_m} = \frac{50*5}{.393}\approx 636</math>

One can assume a uniform H<sub>m</sub> throughout the cross-section of the toroid because the width is smaller than the mean radius.


===Author===
===Author===

Revision as of 19:35, 18 January 2010

Problem Statement

Consider a toroid which has N = 50 turns. The toroid has an ID = 10cm and OD = 15cm. For a current i = 5A calculate the field intensity H along the mean path length within the toroid. (this problem is similar to Example 5-1 in the text book)

Solution

The magnetic field intensity Hm is constant along the circular contour because of symmetry.

The mean path length is

The mean path length is

From Eq. 5-1

One can assume a uniform Hm throughout the cross-section of the toroid because the width is smaller than the mean radius.

Author

Tyler Anderson

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