
For the figure on the right: a) Draw the magnetic field on the closed loop produced....
for the figure
a) calculate the magnetic field on the vertical segments of the
closed loop
b) calculates net magnetic force on the closed loop
I, errado
You know that the net magnetic force on the (closed) current
loop in the uniform magnetic field is zero. As shown in the figure
below, the rectangular thin wire loop running current
I2=8.97 A is, however, in the
non-uniform magnetic field produced by a long straight wire
carrying current I1=13.4 A. The
rectangular loop and the source wire are in the same
(xy)-plane with the geometrical dimensions
illustrated in the figure and equal to a=0.68 cm,
b=1.7 cm and c=53.5...
You know that the net magnetic force on the (closed) current loop in the uniform magnetic field is zero. As shown in the figure below, the rectangular thin wire loop running current 12=8.45 A is, however, in the non-uniform magnetic field produced by a long straight wire carrying current 11=13.88 A. The rectangular loop and the source wire are in the same (xy)-plane with the geometrical dimensions illustrated in the figure and equal to a=0.96 cm, b=2 cm and c=67...
In the figure, a region with
constant (externally produced) magnetic field is shown. A wire loop
moves into the magnetic field.
//img.homeworklib.com/questions/b9da6130-ca78-11eb-8c71-8b0cea09251c.gif
Which of the following is correct? While the loop is moving into
the region with the constant external magnetic field, the magnetic
field inside the loop due to the induced current in the loop points
...
No magnetic field is induced by the movement of the loop.
... down
... left
... into the page
... right
......
The figure shows a region of uniform magnetic field directed
into the page, surrounded by regions where the magnetic field is
zero. A square coil of wire is moving to the right across the
figure in snapshots.
When the coil is moving out of the
region of non-zero magnetic field.
a) On the figure, draw the direction of the induced current in
the wire loop. If there is no induced current, explicitly state
that.
b) Draw the direction of the...
Problem Show coMplere solutions andm 1. In Figure 1, the wire loop consists of four segments. Segments A and B are quarter- circles of radii 10.0 cm and 20.0 cm respectively. Segments C and D are straight. The current in the loop is 10.0 A. The loop is in a uniform magnetic fleld of 0.300 T In the +z direction. Determine the magnetic force on (a) segment A, (7 points) (b) segment B, (7 points) (c) segment C, (4 points)...
In the circuit diagram to the right, the rightmost loop forms a
circle. The magnetic field at the center of this circle is measured
as time passes after the switch is closed. Assume that this field
is caused exclusively by the circular loop, with no contribution by
the other parts of the circuit. a. Compare the magnetic field at
the center of the loop the instant the switch is closed (t = 0) to
the field a long time after...
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both wires. Please find the magnitude and direction of the net force on the loop. 1) What is the direction of magnetic field produced by long wire? 2) What is the force on segment AB due to this magnetic field (magnitude and direction) 3) What is the force on segment CD due to this magnetic field (magnitude and direction) 4) What...
A loop of wire with a clockwise current is in a uniform magnetic field that is in the plane of the loop. The loop has: A) both a net force and a net torque on it. (B) a net force on it but no net torque on it. (C) no net force on it but a net torque on it. (D) neither a net torque nor a net force on it. (E) a magnetic field that adds with the uniform...