A closed square loop with side length a is placed in a uniform electric field with E = 75 x 10-5 N/C j. For a given orientation, the net electric flux through the loop is zero. Choosing a different orientation of the loop gives the maximum possible net electric flux through the loop. If this maximum value is = 4.8 x 1 Nm2 /C. what is the side length of the loop? %3D 2.0 cm 19 cm
A closed square loop with side length a is placed in a uniform electric field with E = 75 x 10-5 N/C j. For a given orientation, the net electric flux through the loop is zero. Choosing a different orientation of the loop gives the maximum possible net electric flux through the loop. If this maximum value is = 4.8 x 1 Nm2 /C. what is the side length of the loop? %3D 2.0 cm 19 cm
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![A closed square loop with side length a is placed in a uniform electric field with
E = 75 x 10- N/C j. For a given orientation, the net electric flux through
the loop is zero. Choosing a different orientation of the loop gives the maximum
possible net electric flux through the loop. If this maximum value is
= 4.8 x 10 Nm2/C. what is the side length of the loop?
O 2.0 cm
19 cm
Not enough information
say
8.0 cm
6.4 mm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc68a8dbd-881d-4a6f-a3c0-a7bf23949cc6%2F393d5541-362f-4bfe-a797-1685122e0a65%2Ft0n8xpf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A closed square loop with side length a is placed in a uniform electric field with
E = 75 x 10- N/C j. For a given orientation, the net electric flux through
the loop is zero. Choosing a different orientation of the loop gives the maximum
possible net electric flux through the loop. If this maximum value is
= 4.8 x 10 Nm2/C. what is the side length of the loop?
O 2.0 cm
19 cm
Not enough information
say
8.0 cm
6.4 mm
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