This problem aims to just assist in appreciation of "numbers" related to magnetic interactions. Suppose we are inside a medical MRI unit with the uniform magnetic field strength of B=2.8 T and using a device that contains a thin circular conducting loop of diameter d=20.4 cm. The loop carries the electric current I=0.98 A. What is the range AU of variation of the potential energy of this current loop in the magnetic field B as a function of their mutual orientation?: AU= m). Let us now compare this to the variation of the gravitational potential energy of particle of mass m over the altitude difference equal to d. What would be mass m to have the same variation AU of the gravitational potential energy?: g. m=
This problem aims to just assist in appreciation of "numbers" related to magnetic interactions. Suppose we are inside a medical MRI unit with the uniform magnetic field strength of B=2.8 T and using a device that contains a thin circular conducting loop of diameter d=20.4 cm. The loop carries the electric current I=0.98 A. What is the range AU of variation of the potential energy of this current loop in the magnetic field B as a function of their mutual orientation?: AU= m). Let us now compare this to the variation of the gravitational potential energy of particle of mass m over the altitude difference equal to d. What would be mass m to have the same variation AU of the gravitational potential energy?: g. m=
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:This problem aims to just assist in appreciation of "numbers" related to magnetic interactions. Suppose we are inside a medical MRI unit with the uniform magnetic field strength of B=2.8 T and using a device that contains a thin circular conducting loop of diameter d=20.4 cm. The loop carries the
electric current I=0.98 A.
What is the range AU of variation of the potential energy of this current loop in the magnetic field B as a function of their mutual orientation?:
AU=
m).
Let us now compare this to the variation of the gravitational potential energy of particle of mass m over the altitude difference equal to d. What would be mass m to have the same variation AU of the gravitational potential energy?:
g.
m=
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