(28-18) a rectangular loop of wire is placed next to a straight wire, as show in fig. 28-37. there i
Published 1 year ago • 9.1K plays • Length 2:15Download video MP4
Download video MP3
Similar videos
-
0:51
(28-5) in fig. 28-33, a long straight wire carries current i out of the page toward the viewer. indi
-
5:14
(28-24) a triangular loop of side length a carries a current i (fig. 28-41). if this loop is placed
-
6:47
net magnetic force on the square wire loop by straight wire current carrying conductor (part 1)
-
1:18
(28-36) a small loop of wire of radius 1.8 cm is placed at the center of a wire loop with radius 25.
-
2:20
(28-15) a third wire is placed in the plane of the two wires shown in fig. 28-36 parallel and just t
-
3:35
(28-14) a long pair of insulated wires serves to conduct 28.0 a of dc current to and from an instrum
-
1:27
(29-3) the rectangular loop shown in fig. 29-37 is pushed into the magnetic field which points inwar
-
2:33
(28-34) a wire, in a plane, has the shape shown in fig. 28-43, two arcs of a circle connected by rad
-
10:40
find the net force exerted by the magnetic field due to the straight wire on the loop.
-
4:20
(28-31) a coaxial cable consists of a solid inner conductor of radius r_1, lt surrounded by a concen
-
1:31
(28-4) a vertical straight wire carrying an upward 28a current exerts an attractive force per unit l
-
2:07
(28-13) two long straight wires each carry a current i out of the page toward the viewer, fig. 28-35
-
8:21
net magnetic force on the square wire loop by straight wire current carrying conductor (part 2)
-
17:54
22.55 | figure 22.57 shows a long straight wire near a rectangular current loop. what is the
-
4:53
8.02x - module 06.06 - magnetic flux due to an infinite wire through a rectangular loop.
-
1:04
(28-28) a toroid (fig. 28-17) has a 50.0-cm inner diameter and a 54.0-cm outer diameter. it carries
-
1:49
(28-8) a horizontal compass is placed 18cm due south from a straight vertical wire carrying a 43a cu
-
2:30
(28-41) a segment of wire of length d carries a current i as shown in fig. 28-49. (a) show that for