Fig 2 fig1 The figures below show two different situations where a current may b

ID: 1263988 • Letter: F

Question

         Fig 1: Loop moving West, induced current 'a'.
            Fig 2: Loop moving North, induced current 'a'.
         Fig 1: Magnet moving East, induced current 'b'.
         Fig 1: Magnet moving West, induced current 'a'.
         Fig 2: Loop moving East, induced current 'a'.
         Fig 2: Loop moving East, no induced current.

Fig 2 fig1 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 dots. Select true or false for the current in the loop. Fig 1: Loop moving West, induced current 'a'. Fig 2: Loop moving North, induced current 'a'. Fig 1: Magnet moving East, induced current 'b'. Fig 1: Magnet moving West, induced current 'a'. Fig 2: Loop moving East, induced current 'a'. Fig 2: Loop moving East, no induced current.

Explanation / Answer

Fig 1: Loop moving West, induced current 'a'. True as South pole is generated in the loop
Fig 2: Loop moving North, induced current 'a'. False ,magnetic filed increases thus the magnetic field due to induced current will into plane

         Fig 1: Magnet moving East, induced current 'b'. True
         Fig 1: Magnet moving West, induced current 'a'. True
         Fig 2: Loop moving East, induced current 'a'. False ,no induced current as the magnetic flux remain contant
         Fig 2: Loop moving East, no induced current.True

Navigate

Fig 13.5 is a \'snapsher\' of a wave at a given time. The frequency of the wave

Fig 6. SWOT Matrix Strengths Weaknesses CC1: Brand image W1: Less of untapped ma

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.

Fig 2 fig1 The figures below show two different situations where a current may b

Question

Explanation / Answer

Related Questions

Navigate