3
answers
0
watching
289
views
20 Nov 2019
(True/False) 1. A long straight wire parallel to the y axis carriesacurrent of 6.3 A in the positive y direction. There is auniformmagnetic field of 1.5 T in the positive x direction. Theforce perunit length on the wire is approximately 9.5 N/m and is inthepositive z direction. 2. A long wire carries a current toward the north in amagneticfield that is directed vertically downward. The directionof themagnetic force on the wire is toward the west. 3. A long straight wire parallel to the y axis carriesacurrent of 6.3 A in the positive y direction. There is auniformmagnetic field of 1.5 T in the positive x direction. Theforce perunit length on the wire is approximately 9.5 N/m and is inthenegative z direction 4. The figure shows the motion of electrons in a wirewhich isnear the North pole of a magnet. The wire will be pushedaway fromthe magnet. 5. A long wire carries a current toward the east in amagneticfield that is directed due south. The direction of themagneticforce on the wire is vertically downward.
(True/False) 1. A long straight wire parallel to the y axis carries acurrent of 6.3 A in the positive y direction. There is a uniformmagnetic field of 1.5 T in the positive x direction. The force perunit length on the wire is approximately 9.5 N/m and is in thepositive z direction. 2. A long wire carries a current toward the north in amagnetic field that is directed vertically downward. The directionof the magnetic force on the wire is toward the west. 3. A long straight wire parallel to the y axis carries acurrent of 6.3 A in the positive y direction. There is a uniformmagnetic field of 1.5 T in the positive x direction. The force perunit length on the wire is approximately 9.5 N/m and is in thenegative z direction 4. The figure shows the motion of electrons in a wirewhich is near the North pole of a magnet. The wire will be pushedaway from the magnet. 5. A long wire carries a current toward the east in amagnetic field that is directed due south. The direction of themagnetic force on the wire is vertically downward.
(True/False)
1. A long straight wire parallel to the y axis carriesacurrent of 6.3 A in the positive y direction. There is auniformmagnetic field of 1.5 T in the positive x direction. Theforce perunit length on the wire is approximately 9.5 N/m and is inthepositive z direction.
2. A long wire carries a current toward the north in amagneticfield that is directed vertically downward. The directionof themagnetic force on the wire is toward the west.
3. A long straight wire parallel to the y axis carriesacurrent of 6.3 A in the positive y direction. There is auniformmagnetic field of 1.5 T in the positive x direction. Theforce perunit length on the wire is approximately 9.5 N/m and is inthenegative z direction
4. The figure shows the motion of electrons in a wirewhich isnear the North pole of a magnet. The wire will be pushedaway fromthe magnet.
5. A long wire carries a current toward the east in amagneticfield that is directed due south. The direction of themagneticforce on the wire is vertically downward.
(True/False) 1. A long straight wire parallel to the y axis carries acurrent of 6.3 A in the positive y direction. There is a uniformmagnetic field of 1.5 T in the positive x direction. The force perunit length on the wire is approximately 9.5 N/m and is in thepositive z direction. 2. A long wire carries a current toward the north in amagnetic field that is directed vertically downward. The directionof the magnetic force on the wire is toward the west. 3. A long straight wire parallel to the y axis carries acurrent of 6.3 A in the positive y direction. There is a uniformmagnetic field of 1.5 T in the positive x direction. The force perunit length on the wire is approximately 9.5 N/m and is in thenegative z direction 4. The figure shows the motion of electrons in a wirewhich is near the North pole of a magnet. The wire will be pushedaway from the magnet. 5. A long wire carries a current toward the east in amagnetic field that is directed due south. The direction of themagnetic force on the wire is vertically downward.
Casey DurganLv2
15 Oct 2019
Already have an account? Log in