Figure 1 shows a square coil of side 4.5 cm. A battery is connected to the coil and produces a current of 6.8 A. The coil is placed in a uniform magnetic field of flux density 5.67 mT as shown in Figure 1. A D 0o Figure 1 Calculate the size and direction of the electromagnetic force that will act on side AB. Calculate the size and direction of the electromagnetic force that will act on side BC. Describe the motion of the frame immediately after the current in the frame is switched on. North Pole South Pole

Figure 1 shows a square coil of side 4.5 cm. A battery is connected to the coil and produces a current of 6.8 A. The coil is placed in a uniform magnetic field of flux density 5.67 mT as shown in Figure 1. A D 0o Figure 1 Calculate the size and direction of the electromagnetic force that will act on side AB. Calculate the size and direction of the electromagnetic force that will act on side BC. Describe the motion of the frame immediately after the current in the frame is switched on. North Pole South Pole

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Question

Figure 1 shows a square coil of side 4.5 cm. A battery is
connected to the coil and produces a current of 6.8 A. The
coil is placed in a uniform magnetic field of flux density 5.67
mT as shown in Figure 1.
A
D
0o
Figure 1
Calculate the size and direction of the electromagnetic force
that will act on side AB.
Calculate the size and direction of the electromagnetic force
that will act on side BC.
Describe the motion of the frame immediately after the
current in the frame is switched on.
The battery is removed from the coil and the coil is
mechanically rotated 90° clockwise. State the direction of the
induced current on side AB.
North Pole
South Pole

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