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

For a bar magnet, the magnetic field lines point A) always towards the magnet. B) towards...

For a bar magnet, the magnetic field lines point A) always towards the magnet. B) towards the South pole. C) towards the North pole. D) always away from the magnet.

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.

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...

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 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

A magnetic field, strength 3T, has a direction out of the page. A loop of wire...

A magnetic field, strength 3T, has a direction out of the page. A loop of wire sits in the field and on the plane of the page (area vector of loop is out of page). The loop is much smaller than the extent of the field. The magnetic field starts to slowly change at a rate of -0.0001T/s. Looking down on the loop, which statement is correct? A. Magnetic flux out of page decreasing; anti-clockwise current induced in loop B....

1.) Which of the magnetic fields produced resembles that of a magnet bar? 2) If the...

1.) Which of the magnetic fields produced resembles that of a magnet bar? 2) If the intensity of the electric current is increased, does the magnetic field intensity increase or decrease? 3) If the number of turns or turns is increased in a coil, does the magnetic field increase or decrease? They have up

2. Find the magnetic field as a function of radius for the following: a current,I, running...

2. Find the magnetic field as a function of radius for the following: a current,I, running up the page in a thin wire surrounded by a thick, cylindrical shell, inner radius R_1, outer radius R_2, carrying a constant current density J down the page. The direction of the magnetic field is interesting. When r < R_1, you should be able to give a direction. When r > R_2, find an expression which governs the direction of the magnetic field. In...

a) A current loop in a uniform magnetic field experiences A net force and net torque...

a) A current loop in a uniform magnetic field experiences A net force and net torque A net force A net torque b) A current loop in an external magnetic field will rotate so that its own magnetic field is perpendicular to the external field parallel to the external field anti-parallel to the external field c) Is the simple motor motion similar to the simple pendulum motion? the loop rotates back and forth about an equilibrium point. No Yes d)...

3. A circular coil of wire is rotating in a magnetic field such that it cuts...

3. A circular coil of wire is rotating in a magnetic field such that it cuts through the field's lines. The amplitude of the induced EMF generated in the coil is 7.9 mV. Which of the following could be done to INCREASE the amplitude of the EMF induced in the coil? a. reshape the coil into a square instead of a circle b. rotate the coil such that its axis of rotation is parallel to the magnetic field instead of...