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Q3. There are two parts to this question: Q3A. A single-turn loop is sitting in xy-plane as shown below. There is a back

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Q3. There are two parts to this question: Q3A. A single-turn loop is sitting in xy-plane as shown below. There is a back

Posted: Fri Jul 01, 2022 6:11 am
by answerhappygod
Q3 There Are Two Parts To This Question Q3a A Single Turn Loop Is Sitting In Xy Plane As Shown Below There Is A Back 1
Q3 There Are Two Parts To This Question Q3a A Single Turn Loop Is Sitting In Xy Plane As Shown Below There Is A Back 1 (24.21 KiB) Viewed 30 times
Q3 There Are Two Parts To This Question Q3a A Single Turn Loop Is Sitting In Xy Plane As Shown Below There Is A Back 2
Q3 There Are Two Parts To This Question Q3a A Single Turn Loop Is Sitting In Xy Plane As Shown Below There Is A Back 2 (28.77 KiB) Viewed 30 times
Q3. There are two parts to this question: Q3A. A single-turn loop is sitting in xy-plane as shown below. There is a background magnetic field B = (+32) Bo x sin(wt), where x is coordinate along the x-direction. (a) Find the total magnetic flux through the loop. (b) Find the EMF induced in the loop. Figure 2: for Q3A. y
Q3B. A single-turn loop is sitting in xy-plane as shown below. The right side of the loop is a rail, which moves in the y-direction at a speed of uo m/s. There is also a background magnetic field B = (+32) Bo x sin(wt), where x is coordinate along the x-direction. (a) Find the total magnetic flux through the loop. (b) Find the EMF induced in the loop. Rail R www b b + lot Figure 3: for Q3B. ū = lloy
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