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University Physics with Modern Physics

Hugh D. Young, Roger A. Freedman

Physics

14th edition Edition · 1596 pages

ISBN: 9780321973610

Chapter 4: Q6DQ (page 1072)

Suppose that a positive point charge q is initially at rest on the x-axis, in the path of the electromagnetic plane wave described in Section 32.2. Will the charge move after the wave front reaches it? If not, why not? If the charge does move, describe its motion qualitatively. (Remember that $\overset{u}{E}$ and $\overset{υ}{B}$ have the same value at all points behind the wave front.)

Short Answer

Expert verified

A constant acceleration will be experienced by the point charge.

Step by step solution

01

Definition of point charge.

It is a single point in space where a charge is located.

02

Conclusion.

After reaching the uniform charge, a constant electric field in the wave exerts a constant force on the charge in the direction of E, causing thecharge to accelerate at a constant rate.

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Most popular questions from this chapter

An idealized voltmeter is connected across the terminals of a $15.0 - V$ battery, and arole="math" localid="1655719696009" $75.0 - Ω$ appliance is also connected across its terminals. If the voltmeter reads $11.9 V$ (a) how much power is being dissipated by the appliance, and (b) what is the internal resistance of the battery?

Question: A high voltage dc power line falls on a car, so the entire metal body of the car is at a potential of with respect to the ground. What happens to the occupants (a) when they are sitting in the car and (b) when they step out of the car? Explain your reasoning.

Each of the lettered points at the corners of the cube in Fig. Q27.12 represents a positive charge $q$ moving with a velocity of magnitude $v$ in the direction indicated. The region in the figure is in a uniform magnetic field , parallel to the x-axis and directed toward the right. Which charges experience a force due to $\overset{⇀}{B}$ ? What is the direction of the force on each charge?

An electron at point $A$ inFig. E27.15has a speed $v_{0}$ of $1.41 \times 10^{6} m / s$ Find (a) the magnitude and direction of the magnetic field that will cause the electron to follow the semicircular path from $A$ to $B$ , and (b) the time required for the electron to move from $A$ to $B$ .

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