A uniform magnetic field exists in a region of space. The magnetic field is directed INTO the page and perpendicular to the page, as shown in the Figure below. A circular conducting wire loop is placed in the magnetic field; the loop is oriented parallel to the plane of the page, as shown in the Figure. 34. If the strength of the magnetic field is decreased, in which “direction" will the induced current in the wire loop go? A. counterclockwise. B. clockwise. C. No current is induced in the wire loop. A bar magnet's south pole is moved rapidly away from a coil of conducting wire which is connected to a galvanometer. The bar magnet is moved along the central axis of the coil, as shown in the figure. South pole of bar magnet moved rapidly away from the coil. 35. The current induced in the coil will be A. up in the front side of the coil, deflecting the galvanometer needle to the left. B. down in the front side of the coil, deflecting the galvanometer needle to the right. C. No current will be induced in the coil.
A uniform magnetic field exists in a region of space. The magnetic field is directed INTO the page and perpendicular to the page, as shown in the Figure below. A circular conducting wire loop is placed in the magnetic field; the loop is oriented parallel to the plane of the page, as shown in the Figure. 34. If the strength of the magnetic field is decreased, in which “direction" will the induced current in the wire loop go? A. counterclockwise. B. clockwise. C. No current is induced in the wire loop. A bar magnet's south pole is moved rapidly away from a coil of conducting wire which is connected to a galvanometer. The bar magnet is moved along the central axis of the coil, as shown in the figure. South pole of bar magnet moved rapidly away from the coil. 35. The current induced in the coil will be A. up in the front side of the coil, deflecting the galvanometer needle to the left. B. down in the front side of the coil, deflecting the galvanometer needle to the right. C. No current will be induced in the coil.
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Transcribed Image Text:A uniform magnetic field exists in a region of space. The magnetic field is directed INTO the page and perpendicular to the
page, as shown in the Figure below. A circular conducting wire loop is placed in the magnetic field; the loop is oriented
parallel to the plane of the page, as shown in the Figure.
B
34. If the strength of the magnetic field is decreased, in which "direction" will the induced current
in the wire loop go?
A. counterclockwise.
B. clockwise.
C. No current is induced in the wire loop.
A bar magnet's south pole is moved rapidly away from a coil of conducting wire which is connected to a galvanometer.
The bar magnet is moved along the central axis of the coil, as shown in the figure.
South pole of bar
magnet moved
rapidly away from
the coil.
35. The current induced in the coil will be
A. up in the front side of the coil, deflecting the galvanometer needle to the left.
B. down in the front side of the coil, deflecting the galvanometer needle to the right.
C. No current will be induced in the coil.
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