Describe, with the aid of sketches, the effect on a current-carrying conductor lying in and at right angles to a magnetic field. Exercises 46 continued The coil of a moving-coil instrument is wound with 40 turns. The mean width of the coil is 4 cm and the axial length of the magnetic field is 5 cm. If the flux density in the gap is 0.1 T, calculate the torque in N m when the coil is carrying a current of 10 mA
Describe, with the aid of sketches, the effect on a current-carrying conductor lying in and at right angles to a magnetic field. Exercises 46 continued The coil of a moving-coil instrument is wound with 40 turns. The mean width of the coil is 4 cm and the axial length of the magnetic field is 5 cm. If the flux density in the gap is 0.1 T, calculate the torque in N m when the coil is carrying a current of 10 mA
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Describe, with the aid of sketches, the effect on a
current-carrying conductor lying in and at right angles
to a magnetic field.
Exercises 46 continued
The coil of a moving-coil instrument is wound
with 40 turns. The mean width of the coil is 4 cm
and the axial length of the magnetic field is 5 cm. If the
flux density in the gap is 0.1 T, calculate the torque in
N m when the coil is carrying a current of 10 mA
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