3.53 Use the equation describing the DTFT representa- tion to determine the time-domain signals corre- sponding to the following DTFTs: (a) X(e) cos(20) +isin(20) (b) X(e) = sin(n) + cos(). H [1, π/4< | < 3/4, (c) |X(~²) = {1; 0, otherwise arg{X(e)} = -40 (d) X(e) as depicted in Figure P3.53(a). (e) X(e) as depicted in Figure P3.53(b). (f) X(e) as depicted in Figure P3.53(c). -2 X(e) -2T 0 (a) IX(e) 2m 3m sin (22) M.M.M. -#-#7/27/2 =

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Please solve 3.53 (b) and (d) step by step original solution

FIGURE P3.52
3.53 Use the equation describing the DTFT representa-
tion to determine the time-domain signals corre-
sponding to the following DTFTs:
(a) X(e) = cos(20) + jsin(20)
(b) X(e) = sin(n) + cos().
(c) |X(e) =
[1, π/4 < | < 3π/4,
otherwise
arg{X(e)}:
= -40
(d) X(e) as depicted in Figure P3.53(a).
(e) X(e) as depicted in Figure P3.53(b).
(f) X(e) as depicted in Figure P3.53(c).
3.54 Use the defining equation for the FT to evaluate the
frequency-domain representations of the following
signals:
(a) x(t) = eu(t - 3)
(b) x(t) = e
(c) x(t) = te 'u(t)
(d) x(t) = m-am8(tm), a < 1
(e) x(t) as depicted in Figure P3.54(a).
(f) x(1) as depicted in Figure P3.54(b).
3.55 Use the equation describing the FT representation to
determine the time-domain signals corresponding to
the following FTs:
(a) X(jw) =
(b) X(jw) = eu (w)
(c) X(jw) = elad
(d) X(jw) as depicted in Figure P3.55(a).
(e) X(jw) as depicted in Figure P3.55(b).
(f) X(jw) as depicted in Figure P3.55(c).
(cos(2w), w <
0,
otherwise
Y
-2π
...
-2π
-2π
-2π
X(e)
FIGURE P3.53
IX(e)|
MMM..
m/2
-T-TT/2
0
(a)
0
arg (X(e)}
2π-
未
-T
0
-2π
-#-#12
sin (52)
(b)
IX(e)|
1
-"/2
-TT
0
arg{X(e))
0
T
TT/2
TT/2 म
(c)
2π
т
2π
fi
2π
3π
+9
3π
2π
2T
Q
Ω
Transcribed Image Text:FIGURE P3.52 3.53 Use the equation describing the DTFT representa- tion to determine the time-domain signals corre- sponding to the following DTFTs: (a) X(e) = cos(20) + jsin(20) (b) X(e) = sin(n) + cos(). (c) |X(e) = [1, π/4 < | < 3π/4, otherwise arg{X(e)}: = -40 (d) X(e) as depicted in Figure P3.53(a). (e) X(e) as depicted in Figure P3.53(b). (f) X(e) as depicted in Figure P3.53(c). 3.54 Use the defining equation for the FT to evaluate the frequency-domain representations of the following signals: (a) x(t) = eu(t - 3) (b) x(t) = e (c) x(t) = te 'u(t) (d) x(t) = m-am8(tm), a < 1 (e) x(t) as depicted in Figure P3.54(a). (f) x(1) as depicted in Figure P3.54(b). 3.55 Use the equation describing the FT representation to determine the time-domain signals corresponding to the following FTs: (a) X(jw) = (b) X(jw) = eu (w) (c) X(jw) = elad (d) X(jw) as depicted in Figure P3.55(a). (e) X(jw) as depicted in Figure P3.55(b). (f) X(jw) as depicted in Figure P3.55(c). (cos(2w), w < 0, otherwise Y -2π ... -2π -2π -2π X(e) FIGURE P3.53 IX(e)| MMM.. m/2 -T-TT/2 0 (a) 0 arg (X(e)} 2π- 未 -T 0 -2π -#-#12 sin (52) (b) IX(e)| 1 -"/2 -TT 0 arg{X(e)) 0 T TT/2 TT/2 म (c) 2π т 2π fi 2π 3π +9 3π 2π 2T Q Ω
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