M Review | Constanis Find the direction of the current induced in the circuit as it is going into the magnetic field (the first case), totally within the magnetic field but still moving (the second case), and moving out of the field (the third case). Arectangular circuit is moved at a constant velocity of = 3.05 m/s into, . . - ~ through, and then out of a uniform 1.45 T magnetic field, as shown in (Figure 1 (O The current is counterclockwise in the first case, zero in the second case, and clockwise in the third case. ). The magnetic field region is considerably wider than 50.0 cm . Assume that B . . - ~ =1250 . O The current is zera in the first case, counterclockwise in the second case, and clockwise in the third case. () The current is clockwise in the first case, zero in the second case, and counterclockwise in the third case. (O The current is counterclockwise in the first case, clockwise in the second case, and zero in the third case. O The current is clockwise in the first case, counterclockwise in the second case, and zero in the third case. Request Answer ~ PartB Find the magnitude of the current induced in the circuit as it is going into the magnetic field Express your answer in amperes to three significant figures. I = A v PartC Find the magnitude of the current induced in the circuit as it is totally within the magnetic field but still moving. Express your answer in amperes to three significant figures. L= A Request Answer * PartD Find the magnitude of the current induced in the circuit as it is moving out of the field Express your answer in amperes to three significant figures. h(')? I = A & s & 8 & s Request Answer Figure 10f1 50.0 cm e s e