A square loop of cross sectional area A-0.2 m and resistance R-0.10 is placed in a uniform magnetic field B-0.5T as shown. If the magnetic field is turned off uniformly in 0.ls then the magnitude of induced current (in A) generated in the loop is: Ob Zere OC 01 O 10 OR 100
A square loop of cross sectional area A-0.2 m and resistance R-0.10 is placed in a uniform magnetic field B-0.5T as shown. If the magnetic field is turned off uniformly in 0.ls then the magnitude of induced current (in A) generated in the loop is: Ob Zere OC 01 O 10 OR 100
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![A square loop of cross sectional area A=0.2 m and resistance R-0.10 is placed
in a uniform magnetic field B-0.5T as shown. If the magnetic field is turned off
uniformly in 0.ls then the magnitude of induced current (in A) generated in the
loop is:
Ob Zero
Oc 01
Od 10
OR 100
Bout
umo
1.2 m and resistance R-0.ln is placed
If the magnetic field is turned off
d current (in A) generated in the
R=0.12](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F59ce8b9b-eb1c-4c24-a6ed-04b5da02c84f%2F2d1b8049-d5b0-4776-9650-8d8aa84b9972%2Fxw0l9i_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A square loop of cross sectional area A=0.2 m and resistance R-0.10 is placed
in a uniform magnetic field B-0.5T as shown. If the magnetic field is turned off
uniformly in 0.ls then the magnitude of induced current (in A) generated in the
loop is:
Ob Zero
Oc 01
Od 10
OR 100
Bout
umo
1.2 m and resistance R-0.ln is placed
If the magnetic field is turned off
d current (in A) generated in the
R=0.12
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