Q2.11 : For the integrator circuit shown in Fig (Q₂.11), a sine wave signal is applied to its input. (a) At what frequency (in Hz) are the input and output signals equal in amplitude? (b) At that frequency how does the phase of the output sine wave relate to that of the input? (c) If the frequency is lowered by a factor of (10) from that found in (a), by what factor does the output voltage change? C=10nf R 100 k Fog (Q₂.1)

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Q2H :
For the integrator circuit shown in Fig (Q₂.11),
a sine wave signal is applied to its input.
(a) At what frequency (in Hz) are the input and
output signals equal in amplitude?
that frequency how does the phase of the
output sine wave relate to that of the input?
(c) If the frequency is lowered by a factor of
(10) from that found in (a), by what factor
does the output voltage change?
C=10nf
R
100k
Fry (P₂.11)
Transcribed Image Text:Q2H : For the integrator circuit shown in Fig (Q₂.11), a sine wave signal is applied to its input. (a) At what frequency (in Hz) are the input and output signals equal in amplitude? that frequency how does the phase of the output sine wave relate to that of the input? (c) If the frequency is lowered by a factor of (10) from that found in (a), by what factor does the output voltage change? C=10nf R 100k Fry (P₂.11)
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