Example Problem - Toroid: Difference between revisions

By: Kirk Betz

Problem: Concerning Ampere's law Let look at a coil around a toroid shown in the figure below. The coil has N = 20 turns around the toroid. The toroid has an inside diameter of ID = 4 cm and an outside diameter OD = 5 cm. Determine the field intensity H along the mean path length within the toroid with a current i = 2.5 A.

Figure created by Kirk Betz

Solution:

Do symmetry the magnetic field intensity Hm along a circular contour within the toroid is constant. We can find the mean radius by

${\displaystyle r_{m}=({\frac {1}{2}}){\frac {OD+ID}{2}}=2.25\ cm}$

Using the mean radius the mean path of length ${\displaystyle l_{m}}$ can be calculated.

${\displaystyle l_{m}={2\pi r_{m}}=0.141\ }$

With Ampere's Law (below) the field intensity along the mean path can be Found.

${\displaystyle H_{m}=({\frac {Ni}{l_{m}}})}$

Finally teh H_m can be calculated.

${\displaystyle H_{m}={\frac {20x2.5}{.141}}=354.6\ A/m)}$

Since the width of the toroid is much smaller than the mean radius ${\displaystyle r_{m}}$ we can assume a uniform ${\displaystyle H_{m}}$ throughout teh cross-section of the toroid.

Reviewed by

Will Griffith

Matthew Fetke

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