Homework Answers
Charge on C3 = 
=
Charge stored on capacitors connected in parallel
So Q1/Q2 = C1/C2 = 3
So Q2 = 48/3 = 16 micro coloumb
Charge stored on capacitors connected in series is same so charge stored on C3 is Q1 + Q2 = 64 micro coloumb
Effective capacitance of combination of 3 capacitors is
= 20/9 micro farad
So 
=
28.8 Volts
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QUESTION 5 In figure, C1-3 μF, C2-1 μF, and C3-5 μ F. The capacitor network is...
In (Figure 1) , C1 = 6.00 μF, C2 = 3.00 μF, andC3 = 5.00 μF....
In (Figure 1) , C1 = 6.00 μF, C2 =
3.00 μF, andC3 = 5.00 μF. The capacitor
network is connected to an applied potential
Vab. After the charges on the capacitors
have reached their final values, the charge on C2 is
30.0μC.
Figure 1 of 1
A)What is the charge on capacitor C1?
B) What is the charge on capacitor C3?
C) What is the applied voltage
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In figure, C, 4 μF G. 2 μF, and C,-4 μΡ. The capacitor network is connected...
In figure, C, 4 μF G. 2 μF, and C,-4 μΡ. The capacitor network is connected to an applied potential Vab Aner the charges on the capacit s have reached their final values, the charge on G is 38 μ。. what is the applied voltage Vab? (Give your answer in decimal using V as unit) Ci C2
Please explain all calculation In the following figure, C1 = 6.00 mu F, C2 = 3.00...
Please explain all calculation
In the following figure, C1 = 6.00 mu F, C2 = 3.00 mu F. and C3 = 5.00 mu F. The capacitor network is connected to an applied potential Fab- After the charges on the capacitors have reached their final values, the charge on C2 is 40.0 mu C . (a) What are the charges on capacitors C1 and C3? (b) What is the applied voltage Vab?
The figure shows a network of three capacitors, C1 = 3.0μF, C2 = 4.0μF, and C3...
The figure shows a network of three capacitors,
C1 = 3.0μF, C2 = 4.0μF, and
C3 = 8.0μF, connected to a constant applied
potential Vacacross terminals a and
c. The capacitors in the network are fully charged, and
the charge on C2
is60.0μC.
a. What is the charge (in units of
μC) on
capacitor C3?
b. What is the value (in units of μF) of the equivalent
capacitance Cacof the three-capacitor network
between points a andc?
c. What is the...
Three capacitors with capacitances C1 = 6.3 ?F, C2 = 1.1 ?F, and C3 = 4.3...
Three capacitors with capacitances C1 = 6.3
?F, C2 = 1.1 ?F, and C3 =
4.3 ?F are connected in a circuit as shown in the figure, with an
applied potential of V. After the charges on the
capacitors have reached their equilibrium values, the charge
Q2 on the second capacitor is found to be 55.
?C.
a) What is the charge, Q1, on capacitor
C1?
b) What is the charge, Q3, on capacitor
C3?
c) How much voltage, V,...
In the figure (Figure 1), C1 = C5 = 8.3 μF and C2= C3 = C4 = 4.3 μF. The applied potential is Vab = 250 V.
In the figure (Figure 1), C1 = C5 = 8.3 μF and C2= C3 = C4 = 4.3
μF. The applied potential is Vab = 250 V.a) What is the equivalent capacitance of the network between
points a and b?b) Calculate the charge on capacitor C1.c) Calculate the potential difference across capacitor C1.d) Calculate the charge on capacitor C2.e) Calculate the potential difference across capacitor C2.f) Calculate the charge on capacitor C3.g) Calculate the potential difference across capacitor C3.h) Calculate...
In the figure (Figure 1) , C1 = C5 = 8.8 ?F and C2= C3 =...
In the figure (Figure 1) , C1 = C5 = 8.8 ?F and C2= C3 = C4 =
4.2 ?F . The applied potential is Vab = 200 V .
a. What is the equivalent
capacitance of the network between points a and b?
b. Calculate the charge on
each capacitor and the potential difference across each
capacitor
Three capacitors of capacitance C1=3.50 μF,C2 =9.50 μF, and C3=11.0 μF are connected toa...
Three capacitors of capacitance C1=3.50 μF, C2 =9.50 μF, and C3=11.0 μF are connected to a 40.0 V battery as shown in the figure.1. Calculate the charge on C3.2. Calculate the voltage across C1
Three capacitors of capacitance C1=3.50 μF, C2 =9.00 μF, and C3=12.0 μF are connected to a...
Three capacitors of capacitance C1=3.50 μF, C2 =9.00 μF, and
C3=12.0 μF are connected to a 40.0 V battery as shown in the
figure.
Calculate the charge on C3. 2.45×10-4 C Y
Calculate the voltage across C1.
You can use your answer to the previous problem to find the
voltage across C3, and then find the voltage across C1. Or you can
find the charge across the parallel combination of C1 and C2, then
find the voltage.
(Figure 1)ln the figure are shown three capacitors with What is the charge Qi on capacitor...
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In (Figure 1) , C1 = 6.00 μF, C2 =
3.00 μF, andC3 = 5.00 μF. The capacitor
network is connected to an applied potential
Vab. After the charges on the capacitors
have reached their final values, the charge on C2 is
30.0μC.
Figure 1 of 1
A)What is the charge on capacitor C1?
B) What is the charge on capacitor C3?
C) What is the applied voltage
Vab?
In figure, C, 4 μF G. 2 μF, and C,-4 μΡ. The capacitor network is connected to an applied potential Vab Aner the charges on the capacit s have reached their final values, the charge on G is 38 μ。. what is the applied voltage Vab? (Give your answer in decimal using V as unit) Ci C2
Please explain all calculation
In the following figure, C1 = 6.00 mu F, C2 = 3.00 mu F. and C3 = 5.00 mu F. The capacitor network is connected to an applied potential Fab- After the charges on the capacitors have reached their final values, the charge on C2 is 40.0 mu C . (a) What are the charges on capacitors C1 and C3? (b) What is the applied voltage Vab?
The figure shows a network of three capacitors,
C1 = 3.0μF, C2 = 4.0μF, and
C3 = 8.0μF, connected to a constant applied
potential Vacacross terminals a and
c. The capacitors in the network are fully charged, and
the charge on C2
is60.0μC.
a. What is the charge (in units of
μC) on
capacitor C3?
b. What is the value (in units of μF) of the equivalent
capacitance Cacof the three-capacitor network
between points a andc?
c. What is the...
Three capacitors with capacitances C1 = 6.3
?F, C2 = 1.1 ?F, and C3 =
4.3 ?F are connected in a circuit as shown in the figure, with an
applied potential of V. After the charges on the
capacitors have reached their equilibrium values, the charge
Q2 on the second capacitor is found to be 55.
?C.
a) What is the charge, Q1, on capacitor
C1?
b) What is the charge, Q3, on capacitor
C3?
c) How much voltage, V,...
In the figure (Figure 1), C1 = C5 = 8.3 μF and C2= C3 = C4 = 4.3
μF. The applied potential is Vab = 250 V.a) What is the equivalent capacitance of the network between
points a and b?b) Calculate the charge on capacitor C1.c) Calculate the potential difference across capacitor C1.d) Calculate the charge on capacitor C2.e) Calculate the potential difference across capacitor C2.f) Calculate the charge on capacitor C3.g) Calculate the potential difference across capacitor C3.h) Calculate...
In the figure (Figure 1) , C1 = C5 = 8.8 ?F and C2= C3 = C4 =
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a. What is the equivalent
capacitance of the network between points a and b?
b. Calculate the charge on
each capacitor and the potential difference across each
capacitor
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figure.
Calculate the charge on C3. 2.45×10-4 C Y
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You can use your answer to the previous problem to find the
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