FUNDAMENTALS OF PHYSICS EXTEND 11E
11th Edition
ISBN: 9781119813293
Author: Halliday
Publisher: WILEY
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Chapter 23, Problem 20P
GO Flux and
Figure 23-39 Problem 20.
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A charged particle is held at the center of two concentric conducting spherical shells. Figure (a) shows a cross section. Figure (b) gives
the net flux through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. The scale of the vertical
axis is set by 5 = 5.0 x 105 N-m²/C. What are (a) the charge of the central particle and the net charges of (b) shell A and (c) shell B?
B
(10³ N.m²/C)
5
0
s
(b)
-T
A charged particle is held at the center of two concentric conducting spherical shells. Figure (a) shows a cross section. Figure (b) gives
the net flux through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. The scale of the vertical
axis is set by $5 = 5.0 x 105 N-m²/C. What are (a) the charge of the central particle and the net charges of (b) shell A and (c) shell B?
(a) Number
(b) Number
(c) Number
IM
i
(a)
B
Units C
Units C
Units
C
(10³ N.m²/C)
0
-20 s
Chapter 23 Solutions
FUNDAMENTALS OF PHYSICS EXTEND 11E
Ch. 23 - A surface has the area vector A = 2 i 3 j m2....Ch. 23 - Figure 23-22 shows, in cross section, three solid...Ch. 23 - Figure 23-23 shows, in cross section, a central...Ch. 23 - Figure 23-24 shows, in cross section, two Gaussian...Ch. 23 - In Fig. 23-25, an election is released between two...Ch. 23 - Three infinite nonconducting sheets, with uniform...Ch. 23 - Figure 23-26 shows four situations in which four...Ch. 23 - Figure 23-27 shows four solid spheres, each with...Ch. 23 - A small charged ball lies within the hollow of a...Ch. 23 - Rank the situations of Question 9 according to the...
Ch. 23 - Figure 23-28 shows a section of three long charged...Ch. 23 - Figure 23-29 shows four Gaussian surfaces...Ch. 23 - SSM The square surface shown in Fig. 23-30...Ch. 23 - An electric field given by E = 4.0 i 3.0y2 2.0 j...Ch. 23 - The cube in Fig. 23-31 has edge length 1.40 m and...Ch. 23 - In Fig. 23-32, a butterfly net is in a uniform...Ch. 23 - In Fig. 23-33, a proton is a distance d/2 directly...Ch. 23 - At each point on the surface of the cube shown in...Ch. 23 - A particle of charge 1.8 C is at the center of a...Ch. 23 - When a shower is turned on in a dosed bathroom,...Ch. 23 - Prob. 9PCh. 23 - Figure 23-34 shows a closed Gaussian surface in...Ch. 23 - GO Figure 23-35 shows a dosed Gaussian surface in...Ch. 23 - Figure 23-36 shows two non-conducting spherical...Ch. 23 - SSM The electric field in a certain region of...Ch. 23 - GO Flux and nonconducting shells. A charged...Ch. 23 - A particle of charge q is placed at one corner of...Ch. 23 - GO The box-like Gaussian surface shown in Fig....Ch. 23 - SSM A uniformly charged conducting sphere of 1.2 m...Ch. 23 - The electric field just above the surface of the...Ch. 23 - Space vehicles traveling through Earths radiation...Ch. 23 - GO Flux and conducting shells. A charged particle...Ch. 23 - An isolated conductor has net charge 10 106 C and...Ch. 23 - An electron is released 9.0 cm from a very long...Ch. 23 - a The drum of a photocopying machine has a length...Ch. 23 - Figure 23-40 shows a section of a long,...Ch. 23 - SSM An infinite line of charge produces a field of...Ch. 23 - Figure 23-41a shows a narrow charged solid...Ch. 23 - GO A long, straight wire has fixed negative charge...Ch. 23 - GO A charge of uniform linear density 2.0 nC/m is...Ch. 23 - SSM WWW Figure 23-42 is a section of a conducting...Ch. 23 - In Fig. 23-43, short sections of two very long...Ch. 23 - ILW Two long, charged, thin-walled, concentric...Ch. 23 - GO A long, nonconducting, solid cylinder of radius...Ch. 23 - In Fig. 23-44, two large, thin metal plates are...Ch. 23 - In Fig. 23-45, a small circular hole of radius R =...Ch. 23 - GO Figure 23-46a shows three plastic sheets that...Ch. 23 - Figure 23-47 shows cross sections through two...Ch. 23 - SSM WWW A square metal plate of edge length 8.0 cm...Ch. 23 - GO In Fig. 23-48a, an electron is shot directly...Ch. 23 - SSM In Fig. 23-49, a small, nonconducting ball of...Ch. 23 - Figure 23-50 shows a very large nonconducting...Ch. 23 - GO An electron is shot directly toward the center...Ch. 23 - Two large metal plates of area 1.0 m2 face each...Ch. 23 - GO Figure 23-51 shows a cross section through a...Ch. 23 - Figure 23-52 gives the magnitude of the electric...Ch. 23 - Two charged concentric spherical shells have radii...Ch. 23 - Assume that a ball of charged particles has a...Ch. 23 - SSM An unknown charge sits on a conducting solid...Ch. 23 - Prob. 48PCh. 23 - In Fig, 23-54, a solid sphere of radius a = 2.00...Ch. 23 - GO Figure 23-55 shows two nonconducting spherical...Ch. 23 - SSM WWW In Fig. 23-56, a nonconducting spherical...Ch. 23 - GO Figure 23-57 shows a spherical shell with...Ch. 23 - ILW The volume charge density of a solid...Ch. 23 - Figure 23-58 shows, in cross section, two solid...Ch. 23 - A charge distribution that is spherically...Ch. 23 - The electric field in a particular space is E = x ...Ch. 23 - A thin-walled metal spherical shell has radius...Ch. 23 - A uniform surface charge of density 8.0 nC/m2 is...Ch. 23 - Charge of uniform volume density = 1.2 nC/m3...Ch. 23 - The chocolate crumb mystery. Explosions ignited by...Ch. 23 - SSM A thin-walled metal spherical shell of radius...Ch. 23 - A particle of charge q = 1.0 107 C is at the...Ch. 23 - A proton at speed v = 3.00 105 m/s orbits at...Ch. 23 - Equation 23-11 E = /0 gives the electric field at...Ch. 23 - Charge Q is uniformly distributed in a sphere of...Ch. 23 - A charged particle causes an electric flux of 750...Ch. 23 - SSM The electric field at point P just outside the...Ch. 23 - The net electric flux through each face of a die...Ch. 23 - Figure 23-59 shows, in cross section, three...Ch. 23 - Charge of uniform volume density = 3.2 C/m3 fills...Ch. 23 - A Gaussian surface in the form of a hemisphere of...Ch. 23 - What net charge is enclosed by the Gaussian cube...Ch. 23 - A nonconducting solid sphere has a uniform volume...Ch. 23 - A uniform charge density of 500 nC/m3 is...Ch. 23 - Figure 23-61 shows a Geiger counter, a device used...Ch. 23 - Charge is distributed uniformly throughout the...Ch. 23 - SSM A spherical conducting shell has a charge of...Ch. 23 - A charge of 6.00 pC is spread uniformly throughout...Ch. 23 - Water in an irrigation ditch of width w = 3.22 m...Ch. 23 - Charge of uniform surface density 8.00 nC/m2 is...Ch. 23 - A spherical ball at charged particles has a...
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- Asaparrow_forwardA charged particle is held at the center of two concentric conducting spherical shells. Figure (a) shows a cross section. Figure (b) gives the net flux through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. The scale of the vertical axis is set by $5 = 3.5 × 105 N-m²/C. What are (a) the charge of the central particle and the net charges of (b) shell A and (c) shell B? (a) (10³ N.m²/C) 0 T -20 s e (b) -Tarrow_forwardA charged particle is held at the center of two concentric conducting spherical shells. Figure (a) shows a cross-section. Figure (b) gives the net flux & through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. The scale of the vertical axis is set by o, = 5.0×10° N.m/C. What are (a) the charge of the central particle and the net charges of (b) shell A Q3. and (c) shell B? (a) (B) (10°N• m/C)arrow_forward
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