A conducting wire formed in the shape of a right triangle with base b = 29 cm and height h = 51 cm and having resistance R = 1.7 N, rotates uniformly around the y-axis in the direction indicated by the arrow (clockwise as viewed from above (loooking down in the negative y-direction)). The triangle makes one complete rotaion in time t = T = 1.5 seconds. A constant magnetic field B = 1.2 T pointing in the positive z-direction (out of the screen) exists in the region where the wire is rotating. %3D b 1) What is w, the angular frequency of rotation? radians/second Submit 2) What is Imax, the magnitude of the maximum induced current in the loop? A Submit 3) At time t = 0, the wire is positioned as shown. What is the magnitude of the magnetic flux P1 at time t = t1 = 0.5625 s? T-m2 Submit +) OO O O O o OO O O O O

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A conducting wire formed in the shape of a right triangle with base b = 29 cm and height h = 51 cm and having resistance R = 1.7 Q, rotates uniformly around the y-axis in the direction indicated by the arrow (clockwise as viewed from above (loooking down in the negative y-direction)). The triangle makes one complete rotaion in time t = T= 1.5 seconds. A constant magnetic field B = 1.2 T pointing in the positive z-direction (out of the screen) exists in the region where the wire is rotating. 1) What is w, the angular frequency of rotation? radians/second Submit 2) What is Imax, the magnitude of the maximum induced current in the loop? A Submit 3) At time t = 0, the wire is positioned as shown. What is the magnitude of the magnetic flux 01 at time t = tj = 0.5625 s? T-m2 Submit 4) What is I1, the induced current in the loop at time t = 0.5625 s? I, is defined to be positive if it flows in the negative y-direction in the segment of length h. A Submit O O O O O O