Transcript
Errata for "Electromagnetics for Engineers" by Clayton R. Paul
1st Printing 2/14/2006
(1) p.27, Fig. 2.5(a) drawn incorrectly.
(2) p.34, Quick Review Exercise 2.3, replace "" with "".
(3) p.37, Quick Review Exercise 2.4, replace "" with "".
(4) p.42, Fig. 2.17, shading missing.
(5) p.70, Fig. 3.12, shading missing.
(6) p.88, Fig. 3.25(a), shading missing.
(7) p.104, Fig. 3.37, shading missing.
(8) p.194, problem 4.8.1, replace "" with "".
(9) p.194, problem 4.9.1, replace "10MHz" with "1MHz".
(10) p 163, Fig. 4.10 and 4.11, shading missing.
(11) p.250, problem 5.4.1, replace "" with "".
(12) p.251, problem 5.4.3, replace "" with "".
(13) p.251, problem 5.5.2, replace "" with
(14) p.252, problem 5.5.6, replace "2.49W" with "3.8W".
(15) p.253, Fig. P5.6.2, shading missing.
(16) p.341, problem 6.2.11, replace "" with "".
(17) p.305, EXAMPLE 6.10, replace "" with "".
(18) p.345, problem 6.3.4, replace "" with "".
(19) p.345, problem 6.3.6, replace ""with "".
(20) p.359, Fig. 7.5, axes mislabeled: replace x with y and y with x, X2.
(21) p.328, Fig. 6.47, replace "" with "".
(22) p.382, Figure 7.18, replace "steering" with "steered".
(23) p.228, Fig. 5.10, replace "perfect conductor" with "good conductor".
(24) p.199, Table 5.2, replace "(Relative to Copper ) of Various
Metals" with "Relative to Copper) of Various Metals".
(25) p. xiii, web site is http://www.wiley.com/college/paul
(26) p 90, Example 3.14, 4th line down change to .
(27) p. 165, Example 4.7, permittivity has units of F/m.
(28) p.165 Quick Review Exercise, conductivity has units of S/m.
(29) p.192, Problem 4.1.10, units for are rad/s not rad/m.
(30) p. 275, Figure 6.13(b) has an arrow between 6n and 7n which is in the
wrong direction.
(31) p. 277, Figure 6.14(a), inductance per unit length has the wrong
symbol: it should be l not t.
(32) p.114 replace last three sentences "This separation of charge will
produce an electric field that is directed from the positive accumulated
charge on the top end toward the negative accumulated charge on the bottom
end. Hence an electric field will be developed along the wire. This
electric field is effectively" with "When the force on the charges caused
by their separation balances the force due to the magnetic field, i.e.,
, further charge movement ceases and the situation is in equilibrium.
Hence an electric field will be developed along the wire due to its motion
relative to the magnetic field. This motional electric field is
effectively".
(33) p. 114 last equation, remove minus signs to read
(34) p.115, equation (3.97) replace with
(35) p. 144 change last line from "To do this, we rewrite (4.4) by moving
the negative sign to the left side and defining the voltage of the inserted
source as" to "To do this, we define the voltage of the inserted source
as".
(36) p. 144 change equation (4.8) to read
(37) p. 150 last line above equation (4.12) change from "Again, to define
these sources we move the negative sign to the left in (4.9) to give" to
"Again, to define these sources, we write (4.9) as".
(38) p.150 Change equation (4.12) to
(39) p. 150. Change equation (4.14) to
(40) p. 152 Change line in middle paragraph from "Positive charge will be
forced to the upper end of the wire and negative charge will be forced to
the lower end generating voltage between the two ends of the wire."
to "Positive charge will be forced to the upper end of the wire and
negative charge will be forced to the lower end."
(41) p. 152 Change last equation to read
(42) p. 341, Problem 6.2.15, midway through the problem statement, change
to .
(43) p.295 Last sentence change "VSWR<2" to read "VSWR<1.2".
Errata for Solution Manual
(1) Chapter 2, p. 2-7, problem 2.6.6, change "" to "".
(2) Chapter 2, p.2-9, problem 2.7.7, replace "volume" with "surface".
(3) Chapter 2, p.2-13, in Figure replace "P" with "".
(4) Chapter 2, p.2-16, problem 2.9.4, replace "Top....=8(" with "Top....=-
8(" and replace "Total=8(+....=64(" with "Total=-8(+....=48(".
(5) Chapter 3, p.3-16, problem 3.6.6, replace "ae" with "are".
(6) Chapter 4, p.4-7, problem 4.3.3, replace "only if "" with "".
Also replace to
.
(7) Chapter 4, p.4-9, problem 4.8.1, replace "Similarly reversing the z
component gives . Hence the image current is " with "Similarly
the z component is . Hence the image current is ".
(8) Chapter 5, p.5-17, problem 5.5.6, replace "" with "". Also
replace "...." with "....".
(9) Chapter 6, p.6-6, in figure replace "" with "" X2.
(10) Chapter 3, Problem 3.5.1, last line, second integral, should be zdz
not ydy.
