A bar magnet is dropped vertically with its upper end, a North pole, through a metal...

A bar magnet with its north pole pointing upward is falling toward the center of a...

A bar magnet with its north pole pointing upward is falling toward the center of a horizontal conducting ring. As view from above, what is the direction of the induced current in the ring? Counterclockwise No current is induced Clockwise Vertical

A bar magnet is above the plane of this page and has its northern pole facing...

A bar magnet is above the plane of this page and has its northern pole facing the center of a metal loop in the plane of the page. the bar magnet moves at constant velocity directly toward the center of the loop. the current induced in the loop is directed a. clockwise b. counter clockwise c. zero d. no current is induced

1. A bar magnet is dropped with its north end down through a horizontally oriented conductive...

1. A bar magnet is dropped with its north end down through a horizontally oriented conductive wire loop. Looking down on the loop, a) What is the direction of the current in the loop as the magnet approaches/enters the loop? Explain well. (Explain how Henz law works in detail) b) What is the direction of the current as the magnet falls out through the bottom of the coil? Explain well.

A loop of wire lies on the table. The north end of a magnet is moved...

A loop of wire lies on the table. The north end of a magnet is moved toward the loop from above. a) Draw a diagram of the situation. b) In which direction is the induced magnetic field? Explain your answer. i) Up ii) Down c) As viewed from above, in which direction is the induced current? Explain your answer. i) Counter-clockwise ii) Clockwise

A bar magnet moves at constant speed all the way into , through , and out...

A bar magnet moves at constant speed all the way into , through , and out of a circular conducting loop. Viewed from the left, the current flow in the loop will be: A) Clockwise only B) Counterclockwise only C) Clockwise, then counterclockwise D) Counterclockwise, then clockwise E) No current will flow

So I have a magnet that goes through a metal coil, north entering first, then exits...

So I have a magnet that goes through a metal coil, north entering first, then exits through the other side of the coil. The induced current changes direction half way as the magnet is passing through the coil. So the question is: Why does the induced current change direction when the magnet is halfway going through a coil? Be very specific when answering this one. (Address what is happening to the magnetic flux and the direction of the induced magnetic...

If you drop a bar magnet down a tube made of conducting material (like copper or...

If you drop a bar magnet down a tube made of conducting material (like copper or aluminum) something interesting happens: the bar magnet does not simply accelerate all the way down under the influence of gravity. Instead, there are forces that oppose the motion and cause the bar magnet to descend at essentially a constant velocity. Suppose you do this two times: once with the north pole of the magnet facing down and the second time with the north pole...

1. Is the magnetic pole of the Earth nearest the geographic North Pole a magnetic north...

1. Is the magnetic pole of the Earth nearest the geographic North Pole a magnetic north or a magnetic south pole? 2. A current in a solenoid coil creates a magnetic field inside that coil. The field strength is directly proportional to: a. the coil area b. the current. c. Both A and B are valid choices. d. None of the above choices are valid. 3. A double loop of wire (making 2 turns) is in the xy-plane centered at...

A long, straight conductor passes through the center of a metal ring, perpendicular to its plane....

A long, straight conductor passes through the center of a metal ring, perpendicular to its plane. If the current in the conductor increases, is a current induced in the ring? Explain.

Written Problem: Induction from a falling magnet We have a small magnet with a magnetic moment...

Written Problem: Induction from a falling magnet We have a small magnet with a magnetic moment of m = 0.1 Am2 (remember: magnetic moment is defined as m = IA - see page 932 of book for the definition). We also have coils of wire. The coils are made out of 100 circular loops of a single wire. A single loop has a radius of 10 cm. The thickness of the wire has a circular cross section with a 0.5...