A small rectangular coil of 6 mm by 6 mm is placed in the middle of a solenoid of 40 mm length having 100 turns and carrying a current of 3 A. The sides of the coil are perpendicular to the magnetic field lines of the solenoid. Calculate the force on each side of the rectangular coil due to the magnetic field of the solenoid given that a current of 2.0 A is passed through the small coil. Take vacuum permeability Ho = 4r × 10¬" H/m. Provide your answer in units of micro Newtons (µN, 10-6 N).

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A small rectangular coil of 6 mm by 6
mm is placed in the middle of a
solenoid of 40 mm length having 100
turns and carrying a current of 3 A.
The sides of the coil are
perpendicular to the magnetic field
lines of the solenoid. Calculate the
force on each side of the rectangular
coil due to the magnetic field of the
solenoid given that a current of 2.0 A
is passed through the small coil.
Take vacuum permeability
- 4r × 10-7 H/m. Provide your
Mo =
answer in units of micro Newtons
(µN, 10-6 N).
Answer:
Transcribed Image Text:A small rectangular coil of 6 mm by 6 mm is placed in the middle of a solenoid of 40 mm length having 100 turns and carrying a current of 3 A. The sides of the coil are perpendicular to the magnetic field lines of the solenoid. Calculate the force on each side of the rectangular coil due to the magnetic field of the solenoid given that a current of 2.0 A is passed through the small coil. Take vacuum permeability - 4r × 10-7 H/m. Provide your Mo = answer in units of micro Newtons (µN, 10-6 N). Answer:
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