Errata

ERRATA

Fundamentals of Signals and Systems Using The Web and MATLAB
Second Edition
by Edward Kamen and Bonnie Heck

The known errors in the textbook are listed below. Please report any new errors in the textbook or in the solutions manual to Bonnie Heck at bonnie.heck@ece.gatech.edu.

Page
Correction

32 Figure 1.29: the car figure does not belong; only the y(t) vs Time plot should be there.

49 Problem 1.7 (c): the second cos(t) should be labeled sin(t)

51 Problem 1.14(c) graph should indicate that x(t) = 0 for t< 0.

54 Problem 1.24: Rather than say "y(t) is the zero-state response to x(t)", the problem statement should say "y(t) is the response of the system to x(t). Assume that the system is initially at rest." Part (a) should be modified to read y(t)=x(t)+1 if x(t) not equal to zero, otherwise, y(t) = 0.

88 Problem 2(e): x(t) = u(t) not x(0) = u(t), also, an error exists in the solutions manual

98
Problem 2.34 (c) use the values of T = 0.1, T = 0.5 and T = 1 sec for the three cases. Simulate for 80 seconds.

Part (e) Use T = 0.1 sec and simulate for 100 seconds.

135 Problem 3.1 (e) should read y[n+2]+1/4y[n+1]-3/8y[n] = 2x[n+2]-3x[n].

138 Problem 3.14 (d) is a duplication of part (a).

139 Problem 3.23: the figure referenced should be Figure P3.23.

153 Figure 4.5: the axis for |c_k| should be labeled 0.25 and 0.5 not 25 and 5.

160 Subscript for c in the equation should be a "k" not an "n"

201 Problem 4.22(b): Should be x(t)=t*exp(-t)*u(t) not x(t) = t*exp(-1)*u(t)

216 Equation (5.40) should have a dw (omega) not a dt

294 Problem 6.10: Plot magnitude only. Part (d) should have instead of p in denominator of argument. Lastly, this problem should have been 6.1 (that is, the material is the most basic in the chapter so it should have been the first problem).

351 Problem 7.6: Use either the definition of the inverse DTFT or the properties to solve. In part (b): The curve on the left should be shifted to the right by pi/3, and the curve on the right should be shifted to the left by pi/3. The function should be periodic with period 2*pi.

352 Problem 7.9(b): missing an "=" , should read x[1] = 0

453 Figure 9.9: delta = 0 and delta = 1 in figure should be zeta = 0 and zeta = 1

477 The corner frequency is off by approximately 3 dB, not exactly 3dB. It should be exactly off by
20 log10(sqrt(2))

558 The first sentence on the page might be better stated "... such that z is not equal 0."

571 Equation (11.59): k should be replaced by n inside the integral, so it should be z^(n-1)

572 The table entry u[n]+u[n-q] should be the pulse, u[n]-u[n-q]

573
Example 11.15, Inverse z-Transform via Long Division:

z^3 + 2 + 4z^-1 should be z^2 + 2 + 4z^-1 under the z^2 - 1 line.

Page	Correction
32	Figure 1.29: the car figure does not belong; only the y(t) vs Time plot should be there.
49	Problem 1.7 (c): the second cos(t) should be labeled sin(t)
51	Problem 1.14(c) graph should indicate that x(t) = 0 for t< 0.
54	Problem 1.24: Rather than say "y(t) is the zero-state response to x(t)", the problem statement should say "y(t) is the response of the system to x(t). Assume that the system is initially at rest." Part (a) should be modified to read y(t)=x(t)+1 if x(t) not equal to zero, otherwise, y(t) = 0.
88	Problem 2(e): x(t) = u(t) not x(0) = u(t), also, an error exists in the solutions manual
98	Problem 2.34 (c) use the values of T = 0.1, T = 0.5 and T = 1 sec for the three cases. Simulate for 80 seconds. Part (e) Use T = 0.1 sec and simulate for 100 seconds.
135	Problem 3.1 (e) should read y[n+2]+1/4y[n+1]-3/8y[n] = 2x[n+2]-3x[n].
138	Problem 3.14 (d) is a duplication of part (a).
139	Problem 3.23: the figure referenced should be Figure P3.23.
153	Figure 4.5: the axis for \|c_k\| should be labeled 0.25 and 0.5 not 25 and 5.
160	Subscript for c in the equation should be a "k" not an "n"
201	Problem 4.22(b): Should be x(t)=texp(-t)u(t) not x(t) = texp(-1)u(t)
216	Equation (5.40) should have a dw (omega) not a dt
294	Problem 6.10: Plot magnitude only. Part (d) should have instead of p in denominator of argument. Lastly, this problem should have been 6.1 (that is, the material is the most basic in the chapter so it should have been the first problem).
351	Problem 7.6: Use either the definition of the inverse DTFT or the properties to solve. In part (b): The curve on the left should be shifted to the right by pi/3, and the curve on the right should be shifted to the left by pi/3. The function should be periodic with period 2*pi.
352	Problem 7.9(b): missing an "=" , should read x[1] = 0
453	Figure 9.9: delta = 0 and delta = 1 in figure should be zeta = 0 and zeta = 1
477	The corner frequency is off by approximately 3 dB, not exactly 3dB. It should be exactly off by 20 log10(sqrt(2))
558	The first sentence on the page might be better stated "... such that z is not equal 0."
571	Equation (11.59): k should be replaced by n inside the integral, so it should be z^(n-1)
572	The table entry u[n]+u[n-q] should be the pulse, u[n]-u[n-q]
573	Example 11.15, Inverse z-Transform via Long Division: z^3 + 2 + 4z^-1 should be z^2 + 2 + 4z^-1 under the z^2 - 1 line.