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

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

A bar magnet is dropped vertically with its upper end, a North pole, through a metal ring. If the ring is viewed from above the rings center the induced current in the ring A) will flow clockwise and be increasing. B) will flow clockwise and be decreasing. C) will flow counter-clockwise and be increasing. D) will flow counter-clockwise and be decreasing. E) The induced current will be zero.

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

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...

a bar magnet is dropped through a loop of wire a. what is the direction of...

a bar magnet is dropped through a loop of wire a. what is the direction of the current as the magnet enters the loop from the top? b. what is the direcion of the current as the magnet as it leaves the loop from the bottom? c. what is the direction of the current at the instant it is in the middle?

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 conducting bar of length 2.0 m moves on two horizontal frictionless rails with a resistor...

A conducting bar of length 2.0 m moves on two horizontal frictionless rails with a resistor that is connected at the left ends between the two rails. A constant force of magnitude 1.0 N moves the bar at a uniform speed of 2.0 m/s to the right through a magnetic field-B that is directed into the page. Draw the diagram. If the resistor in the loop is 8.0 ohms, what is the direction and magnitude of the induced current in...

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.

The field lines of a bar magnet are most similar to those of which current distribution?...

The field lines of a bar magnet are most similar to those of which current distribution? a) circular loop. b) thin wire. c) thick wire. d) cylindrical coil. e) toroid (doughnut).

A circular wire loop 39 cm in diameter has resistance 120 Ω and lies in a...

A circular wire loop 39 cm in diameter has resistance 120 Ω and lies in a horizontal plane. A uniform magnetic field points vertically downward, and in 25 ms it increases linearly from 5.0 mT to 55 mT. Find the magnetic flux through the loop at the beginning. ( Φ1 = ? mWb ) Find the magnetic flux through the loop at the end of the 25-ms period. Φ2 = ? mWb What's the loop current during this time? Express...

A circular loop of wire in the xy plane has a current flow clockwise through it...

A circular loop of wire in the xy plane has a current flow clockwise through it as viewed from the +z direction. There is a uniform external magnetic field applied to the loop in the +x direction. What is the direction of the net force of the magnetic field on the loop? a) +y b) -y c) -z d) There is no net force on the loop. Magnetic fields a) Can have a net flux out of a closed surface....