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Electric Circuit Analysis by K. S. Suresh Kumar

11.7 
proBLEms
[Circuits are initially relaxed unless specified otherwise]
1. What is the differential equation describing v
C
(t) for 

0
+
in the circuit in Fig. 11.7-1?
+
v
C
(
t
)
u
(
t
) – 
u
(
t
–1)
t
=2 s
R
1
C
R
2

+

Fig. 11.7-1 
2. A parallel RC circuit with non-zero initial energy is driven by a 1A DC current source from 
t 

0. v
C
(t) is found to reach 75% of its steady-state value in one time constant. Express the initial 
voltage across capacitor as a percentage of its steady-state value.
3. A parallel RC circuit is driven by a 1A DC current source from t 
=
0. v
C
(t) is found to be 50% at 
t 
=
t
. Was there any initial voltage across C? If so, what is its magnitude and polarity?
4. Find and plot the v
C
(t) and voltage across the current source as functions of time in Fig. 11.7-2. Is 
there any exponential function in the expression for v
C
(t)? If not why? 
0.001 
u
(
t

1 k

R

µ
F
+
v
C
(
t
)
C

Fig. 11.7-2 


11.30


First-Order
RC
Circuits
5. Derive an expression for v
C
in an initially relaxed series RC circuit when it is driven by v
S
(t
=
t 
for 0
+

t 

t
and 0 for all other t, where 
t
=
RCt.
6. What is the time required for the energy stored in C in a series RC circuit with voltage source 
input to reach 99% of its steady-state value in step response?
7. v
C
in the circuit in Fig. 11.7-3 is –10 V at t 
=
0
-
. If v
C
(t
=
0 for t 

0
+
, find C.
+
v
C
(
t
)
R
C

+

100 

0.01 (
t
)
δ
Fig. 11.7-3 
8. A parallel RC circuit is driven by a 1A DC current source from t 

0. The resistor voltage is found 
to be (10 
-
5e
-
 t
) V for t 

0
+
. What are the values of CR and initial voltage?
9. v
C
in the circuit in Fig. 11.7-4 at t 
=
0
-
is –12 V. It is found that v
C
(t
=
0 for t 

0
+
. What is the 
rise time of step response of the circuit?
+
v
C
(
t
)
R
C

+

0.01 (
t
)
100 

δ
Fig. 11.7-4 
10. A parallel RC circuit with non-zero initial energy is driven by a 1A DC current source from t 
=
0. 
The capacitor voltage is found to be 15 V for t 

0
+
. What is the value of initial voltage and what 
is its polarity relative to the observed voltage? What is the value of R in the circuit?
11. A parallel RC circuit with non-zero initial energy is driven by a 1A DC current source from t 
=
0. 
The resistor current is found to be 12 mA under steady-state. What is the new steady-state value 
of this current if (i) the initial condition is doubled (ii) if 2u(t) is applied with no change in initial 
condition?
12. The capacitor voltage v
C
(t
=
0 for t 

0
+
in the circuit in Fig. 11.7-5. Find the values of V
0
and I
S

The circuit elements that produced initial energy storage in the capacitor are not shown.
+


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