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By how much will the temperature of the tissue increase ?  answer in K.  show steps on how you solved it

By how much will the temperature of the tissue increase ?  answer in K.  show steps on how you solved it

College Physics
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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By how much will the temperature of the tissue increase ? 
answer in K. 
show steps on how you solved it 

mane pe How much energy is dissipated in the loop? Assume that muscle tissue has resistivity 13 2 m, density 1.1 x 10³ kg/m³, and specific heat 3600 J/(kg. K). W 5.2x10-9 J W Wha mammoni
Transcribed Image Text:mane pe How much energy is dissipated in the loop? Assume that muscle tissue has resistivity 13 2 m, density 1.1 x 10³ kg/m³, and specific heat 3600 J/(kg. K). W 5.2x10-9 J W Wha mammoni
Currents induced by rapid field changes in an MRI solenoid can, in some cases, heat tissues in the body, but under normal circumstances the heating is small. We can do a quick estimate to show this. Consider the "loop" of muscle tissue shown in the figure. This might be muscle circling the bone of your arm or leg. Muscle tissue is not a great conductor, but current will pass through muscle and so we can consider this a conducting loop with a rather high resistance. Suppose the magnetic field along the axis of the loop drops from 1.6 T to 0 T in 0.30 s, as it might in an MRI solenoid.(Figure 1)
Transcribed Image Text:Currents induced by rapid field changes in an MRI solenoid can, in some cases, heat tissues in the body, but under normal circumstances the heating is small. We can do a quick estimate to show this. Consider the "loop" of muscle tissue shown in the figure. This might be muscle circling the bone of your arm or leg. Muscle tissue is not a great conductor, but current will pass through muscle and so we can consider this a conducting loop with a rather high resistance. Suppose the magnetic field along the axis of the loop drops from 1.6 T to 0 T in 0.30 s, as it might in an MRI solenoid.(Figure 1)
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