A wire in the shape of an "M" lies in the plane of the paper as shown in the figure. It carries a current of 1.76A, flowing from points A to B, to C, to D, then to E. It is placed in a uniform magnetic field of 0.81T in the same plane, directed as shown in the figure. The dimensions of the wire is given AB = DE 11.4m; BC = CD= 6.35m; and 0-40.0°. Find the magnitude of the force acting on the entire wire. B 0 C 100 0 O E
A wire in the shape of an "M" lies in the plane of the paper as shown in the figure. It carries a current of 1.76A, flowing from points A to B, to C, to D, then to E. It is placed in a uniform magnetic field of 0.81T in the same plane, directed as shown in the figure. The dimensions of the wire is given AB = DE 11.4m; BC = CD= 6.35m; and 0-40.0°. Find the magnitude of the force acting on the entire wire. B 0 C 100 0 O E
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Question
![A wire in the shape of an "M" lies in the plane of the paper as shown in
the figure. It carries a current of 1.76A, flowing from points A to B, to C,
to D, then to E. It is placed in a uniform magnetic field of 0.81T in the
same plane, directed as shown in the figure. The dimensions of the wire
is given AB= DE = 11.4m; BC = CD= 6.35m; and 0-40.0°. Find the
magnitude of the force acting on the entire wire.
Question 9
The figure shows the orientation of a flat circular loop on xy
plane consisting of 55 closely wrapped turns each carrying a
current I (count-clockwise as shown). The magnetic field in the
region is directed in an angle of 0=25.5° with the positive z
direction and has a magnitude of 0.806T. The loop has an area
of A=2.06 m², and I = 2.42A. Calculate is the magnitude of the
torque exerted on the current loop (unit in Nm).
X
B
N
0
100
TRO
B
E
y](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa80e44a2-70d1-4179-9c23-596745fb4719%2Fb8a72ff9-65ef-4822-9529-01919dc7eb9f%2F037rgf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A wire in the shape of an "M" lies in the plane of the paper as shown in
the figure. It carries a current of 1.76A, flowing from points A to B, to C,
to D, then to E. It is placed in a uniform magnetic field of 0.81T in the
same plane, directed as shown in the figure. The dimensions of the wire
is given AB= DE = 11.4m; BC = CD= 6.35m; and 0-40.0°. Find the
magnitude of the force acting on the entire wire.
Question 9
The figure shows the orientation of a flat circular loop on xy
plane consisting of 55 closely wrapped turns each carrying a
current I (count-clockwise as shown). The magnetic field in the
region is directed in an angle of 0=25.5° with the positive z
direction and has a magnitude of 0.806T. The loop has an area
of A=2.06 m², and I = 2.42A. Calculate is the magnitude of the
torque exerted on the current loop (unit in Nm).
X
B
N
0
100
TRO
B
E
y
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