32. A signal x(t) = 20 cos(1000 Tt) is impulse sampled at a sampling rate of 2 kHz. Graph two fundamental periods of the impulse-sampled signal x3(t). (Let the one sample be at time t = 0.) Then graph four fundamental periods, centered at zero Hz, of the CTFT X3(f) of the impulse-sampled signal x3 (t). Change the sampling rate to 500 Hz and repeat. %3D

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32. A signal x(t) = 20 cos(1000rt) is impulse sampled at a sampling rate of 2 kHz.
Graph two fundamental periods of the impulse-sampled signal x3(t). (Let the
one sample be at time t = 0.) Then graph four fundamental periods, centered at
zero Hz, of the CTFT X (f) of the impulse-sampled signal x8(t). Change the
sampling rate to 500 Hz and repeat.
33
A cignol x(t).
10 root(+LA) is impulse som
od ot o somplin g roto of 2 Uz
Transcribed Image Text:32. A signal x(t) = 20 cos(1000rt) is impulse sampled at a sampling rate of 2 kHz. Graph two fundamental periods of the impulse-sampled signal x3(t). (Let the one sample be at time t = 0.) Then graph four fundamental periods, centered at zero Hz, of the CTFT X (f) of the impulse-sampled signal x8(t). Change the sampling rate to 500 Hz and repeat. 33 A cignol x(t). 10 root(+LA) is impulse som od ot o somplin g roto of 2 Uz
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