The figures below show two different situations where a current may be induced in a loop according to Faraday's Law, with the direction given by Lenz' Law. The magnetic field strength in Figure 2 is represented by the density of crosses. Select true or false for the current in the loop. The cardinal directions are as defined in the compass rose. a N b Fig. 1 B-field points into page Fig. 2 NW W- NE SW -E SE Fig 1: Loop moving West, induced current 'b'. ☑ Fig 1: Magnet moving West, induced current 'a'. ✓ Fig 2: Loop moving East, induced current 'a'. Fig 2: Loop moving North, induced current 'b'. Fig 2: Loop moving South, no induced current. Fig 1: Magnet moving East, induced current 'a'.

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The figures below show two different situations where a current may be induced in a loop according to Faraday's Law, with the direction given by Lenz' Law. The magnetic field strength in Figure 2 is represented by the density of crosses. Select
true or false for the current in the loop. The cardinal directions are as defined in the compass rose.
a
N
b
Fig. 1
B-field points into page
Fig. 2
NW
W-
NE
SW
-E
SE
Fig 1: Loop moving West, induced current 'b'.
☑ Fig 1: Magnet moving West, induced current 'a'.
✓ Fig 2: Loop moving East, induced current 'a'.
Fig 2: Loop moving North, induced current 'b'.
Fig 2: Loop moving South, no induced current.
Fig 1: Magnet moving East, induced current 'a'.
Transcribed Image Text:The figures below show two different situations where a current may be induced in a loop according to Faraday's Law, with the direction given by Lenz' Law. The magnetic field strength in Figure 2 is represented by the density of crosses. Select true or false for the current in the loop. The cardinal directions are as defined in the compass rose. a N b Fig. 1 B-field points into page Fig. 2 NW W- NE SW -E SE Fig 1: Loop moving West, induced current 'b'. ☑ Fig 1: Magnet moving West, induced current 'a'. ✓ Fig 2: Loop moving East, induced current 'a'. Fig 2: Loop moving North, induced current 'b'. Fig 2: Loop moving South, no induced current. Fig 1: Magnet moving East, induced current 'a'.
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