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A rectangular loop with a sliding connector of length l = 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s.
Correct answer is '2'. Can you explain this answer?
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Most Upvoted Answer
A rectangular loop with a sliding connector of lengthl= 1.0 m is situa...
E=Bvl
e=(2) (2)(1)=4V
E=4V
r=2ohm
i= 4/2+2=1A
=Fm=ilB
= (1)(1)(2)
=2N (towards left)
=Therefore 2N
e=(2) (2)(1)=4V
E=4V
r=2ohm
i= 4/2+2=1A
=Fm=ilB
= (1)(1)(2)
=2N (towards left)
=Therefore 2N
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A rectangular loop with a sliding connector of lengthl= 1.0 m is situa...
6Ω and 3Ω resistors are in parallel and equivalent resistance is 2Ω+2Ω=4Ω.
F=Bil=BL (BLv/Req)
= B2l2v/Req =(22×12×2)/4=2N
F=Bil=BL (BLv/Req)
= B2l2v/Req =(22×12×2)/4=2N
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A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer?
Question Description
A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer?.
A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer?.
Solutions for A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? in English & in Hindi are available as part of our courses for Class 12.
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A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer?, a detailed solution for A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? has been provided alongside types of A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice A rectangular loop with a sliding connector of lengthl= 1.0 m is situated in a uniform magnetic field B = 2T perpendicular to the plane of loop. Resistance of connector is r = 2W. Two resistances of 6W and 3W are connected as shown in figure. Find the external force required to keep the connector moving with a constant velocity v = 2m/s. Correct answer is '2'. Can you explain this answer? tests, examples and also practice Class 12 tests.
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