1.4 The following problems relate to the periodicity of signals: (a) Determine the frequency o in rad/s, the corresponding frequency fo in Hz, and the fun- damental period To s of these signals defined in –∞ < t < 00, (i) cos(2A1), (ii) sin(t – n /4), (iii) tan(ët). (b) Find the fundamental period T of zl1)=1+sin(t)+sin(3t), –∞

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1.4 The following problems relate to the periodicity of signals:
(a) Determine the frequency No in rad/s, the corresponding frequency fo in Hz, and the fun-
damental period To s of these signals defined in -∞ < t < 00,
(i) cos(271), (ii) sin(t – T/4), (iii) tan(ë1).
(b) Find the fundamental period T of zit) =1+sin(t) +sin(3t), –∞ < t < ∞0.
(c) If x(t) is periodic of fundamental period To = 1, determine the fundamental period of the
following signals:
(i) y(t)=2+x(1), (ii) w(t) =x(2t), (iii) v(t) =1/x(t).
(d) What is the fundamental frequency fo. in Hz. of
(i) x(1)=2 cos(t), (ii) y(t) = 3 cos(271+1/4). (iii) c(t)=1/ cos(t).
(e) If z(t) is periodic of fundamental period To, is ze(1) = 0.5[z(t)+z(-1)] also periodic? If
so determine its fundamental period To. What about z,(1) =0.5[z(1) – 2(-1)]?
Answers: (a) (iii) the frequency is fo= 1/2 Hz; (b) T =27; (c) x(2t) has fundamental period
1/2; (d) c(t) has fo = 1/(2x) Hz; (e) ze(1) is periodic of fundamental period To.
%3D
Transcribed Image Text:1.4 The following problems relate to the periodicity of signals: (a) Determine the frequency No in rad/s, the corresponding frequency fo in Hz, and the fun- damental period To s of these signals defined in -∞ < t < 00, (i) cos(271), (ii) sin(t – T/4), (iii) tan(ë1). (b) Find the fundamental period T of zit) =1+sin(t) +sin(3t), –∞ < t < ∞0. (c) If x(t) is periodic of fundamental period To = 1, determine the fundamental period of the following signals: (i) y(t)=2+x(1), (ii) w(t) =x(2t), (iii) v(t) =1/x(t). (d) What is the fundamental frequency fo. in Hz. of (i) x(1)=2 cos(t), (ii) y(t) = 3 cos(271+1/4). (iii) c(t)=1/ cos(t). (e) If z(t) is periodic of fundamental period To, is ze(1) = 0.5[z(t)+z(-1)] also periodic? If so determine its fundamental period To. What about z,(1) =0.5[z(1) – 2(-1)]? Answers: (a) (iii) the frequency is fo= 1/2 Hz; (b) T =27; (c) x(2t) has fundamental period 1/2; (d) c(t) has fo = 1/(2x) Hz; (e) ze(1) is periodic of fundamental period To. %3D
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