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Chapter 20: Q61P (page 861)

A neutral copper bar oriented horizontally moves upward through a region where there is a magnetic field out of the page. Which diagram (1-5) in Figure 20.123 correctly shows the distribution of charge on the bar?

Short Answer

Expert verified

The correct diagram is (3).

Step by step solution

01

Given Data

$\begin{array}{l} speed = v \\ 尘补驳苍别迟颈肠鈥刦颈别濒诲 = B \\ Force = F \end{array}$

02

Concept

The speed is perpendicular to the magnetic field.

03

Find which diagram shows the distribution of charge on the bar

Magnetic force is given by Lorentz force law. This says the direction of the magnetic force is given by the cross product of velocity and magnitude field.

Therefore, $F = q (v 脳 B)$

Since the direction of velocity is in the upward direction and the direction of magnetic field is out of the page so by the right hand thumb rule the direction of force on the positive charge is towards right and that on the negative charge is towards left.

Hence the correct diagram is (3).

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Most popular questions from this chapter

A metal rod of length L slides horizontally at constant speed v on frictionless insulating rails through a region of uniform upward magnetic field of magnitude B (Figure 20.124).

On a diagram, show the polarization of the rod and the direction of the Coulomb electric field inside the rod. Explain briefly. What is the magnitude of the Coulomb electric field inside the rod? What is the potential difference across the rod? What is the emf across the rod? What are the magnitude and direction of the force you have to apply to keep the rod moving at a constant speed v?

The center of a bar magnet whose magnetic dipole moment is $鈱� 8, 0, 0 鈱� 鈥碱鈰� m^{2}$ is located at the origin. A second bar magnet whose magnetic dipole moment is $鈱� 3, 0, 0 鈱� 鈥碱鈰� m^{2}$ is located at $x = 0 .12 鈥尘$ . What is the vector force on the second magnet due to the first magnet?

A current carrying wire is oriented along the y axis. It passes through a region $0.6 m$ in which there is a magnetic field of $4.5 T$ in the $+ z$ direction. The wire experiences a force of $14.9 N$ in the $- x$ direction.

(a.) What is the magnitude of the conventional current in the wire?

An electron is moving with a speed $v$ in the plane of the page (Figure 20.81), and there is a uniform magnetic field $B$ into the page throughout this region; the magnetic field is produced by some large coils that are not shown. Draw the trajectory of the electron, and explain qualitatively.

In Figure 20.115 two long straight wires carrying a large conventional current I are connected by one-and-a-quarter turns of wire of radius $R$ . An electron is moving to the right with speed v at the instant that it passes through the center of the arc. You apply an electric field $\overset{鈫�}{E}$ at the center of the arc in such a way that the net force on the electron at this instant is zero. (You can neglect the gravitational force on the electron, which is easily shown to be negligible, and the magnetic field of the coil is much larger than the magnetic field of the Earth.)

Determine the direction and magnitude of the electric field . Be sure to explain your work fully; draw and label any vectors you use.

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