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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: Q13DQ (page 777)

Because electric field lines and equipotential surfaces are always perpendicular, two equipotential surfaces can never cross; if they did, the direction of E would be ambiguous at the crossing points. Yet two equipotential surfaces appear to cross at the centre of Fig. 23.23c. Explain why there is no ambiguity about the direction of Ein this particular case.

Short Answer

Expert verified

The total energy is equal to zero, then there is no ambiguity about the direction of the total electric energy in this particular case

Step by step solution

01

About electric field lines

Electric field lines are an excellent way of visualising electric fields. They were first introduced by Michael Faraday himself. A field line is drawn tangential to the net at a point. Thus at any point, the tangent to the electric field line matches the direction of the electric field at that point.

02

Determine why there is no ambiguity about the direction of E in this particular case

As We know the electric energy due to a point charge is given by

Calculation:

In order to evaluate the total electric energy, we use the following relation

Therefore the total energy is equal to zero, then there is no ambiguity about the direction of the total electric energy in this particular case

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Most popular questions from this chapter

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 $B$ .

The current in a wire varies with time according to the relationship

$I = 55 A - (0.65 \frac{A}{s^{2}}) t^{2}$ . (a) How many coulombs of charge pass a cross section of the wire in

the time interval between $t = 0$ and role="math" localid="1655721302619" $t = 8.0 s$ ? (b) What constant current would transport the

same charge in the same time interval?

The battery for a certain cell phone is rated at $3.70 V$ .According to the manufacturer it can produce $3.15 \times 10^{4} J$ of electrical energy, enough for $2.25 h$ of operation, before needing to be recharged. Find the average current that this cell phone draws when turned on.

BIO Transmission of Nerve Impulses. Nerve cells transmit electric

signals through their long tubular axons. These signals propagate due to a

sudden rush of ${Na}^{+}$ ions, each with charge $+ e$ , into the axon. Measurements

have revealed that typically about $5.6 \times 10^{11} {Na}^{+}$ ions enter each meter of the

axon during a time of . What is the current during this inflow of charge

in a meter of axon?

A particle with charge $- 5.60 nC$ is moving in a uniform magnetic fieldrole="math" localid="1655717557369" $B = - (1.25 T) \hat{k}$

The magnetic force on the particle is measured to berole="math" localid="1655717706597" $\overset{⇀}{F} = - (3.40 \times 10^{- 7} N) \hat{i} - (7.40 \times 10^{- 7} N) \hat{j}$ (a) Calculate all the components of the velocity of the particle that you can from this information. (b) Are there
components of the velocity that are not determined by the measurement of the force? Explain. (c) Calculate the scalar product $\overset{⇀}{v} ֏ \overset{⇀}{F}$ . What is the angle between velocity and force?

See all solutions

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