The diagram shows an electron current in a wire loop. What is the direction of the magnetic field at the center of the loop?

The diagram shows a conductor carrying a current in which the electron flow is from left to right. The conductor is located in a magnetic field which is directed into this screen. The direction of the magnetic force on the conductor will be

Each of the figures shows the path of a charged particle moving in the plane of the screen in a magnetic field that is perpendicular to the screen. If mass, speed and charge are the same, in which case does the field have the greatest magnitude?

An object with charge -q is in motion near a wire that has a current I to the right. At the instant shown in the figure, the object is traveling to the right with speed v. Both the wire and the motion of the object are in the plane of the page. Which of the following statements is true about the force on the object due to the current I at the instant shown?

The gray rectangle in the figure represents a region of uniform magnetic field directed out of the screen. A square loop of wire of side s is in the plane of the screen and is pulled at constant speed v through the field. Which of the following could show the current I in the loop as a function of the position of the right edge of the loop?

Four infinitely long wires are arranged as shown in the accompanying figure end-on-view. All four wires are perpendicular to the plane of the screen and have the same magnitude of current I. The conventional current in the wire in the upper right hand corner is directed into the plane of the screen. The other conventional currents are out of the plane of the screen. Point P is a distance a from all four wires. What is the total magnetic field at point P?

A loop of wire is connected to an ammeter, as shown, and held in place. The ammeter has a scale with zero in the middle and a needle that moves away from zero in either direction to measure the magnitude and direction of any current in the loop. A bar magnet is held above the center of the loop and released from rest. Which of the following best describes the action of the ammeter needle as the magnet falls through the loop?