Consider the capacitor network. What is the equivalent capacitance of the network. Answer in units of uF.
part 2. Find the charge on the 3.21 uf capacitor to the far let. Answer in units of uC.
Part 3: What is the charge on the 6.34 f capacitor on the lower
right. Answer in units of uC.
Please upload the figure and send it through the server.
With out figure It caunt be predicted that which combination capacitors are in because there are two types of capacitors combination.
Series Combination network
Parrallel combination network
Let two capacitors are in Parrallel combination network and having capacitance C1 and C2. There equivalent capacitance is Ceq= C1+C2
In parrallel combination of capacitors Potential difference accross each capacitor remains the same and charge is differenet.
To find Charege on 3.21uF capacitor
Q=CV
Q=3.21uf (V)
Just have a look in your figure and put the value of V in order to find Q.
3) Q=3.34f (V)
put the value of V and convert it into micro. For micro farad divide the expression by 10-6 .
If the combination is in series then the equivalent capacitance is
1/Ceq= 1/ C1+1/C2
When the capacitors are in series then the charge on each capacitor is same and potential difference accross each capacitor is different.
Consider the capacitor network. What is the equivalent capacitance of the network. Answer in units of...
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For the capacitor network
below, calculate when V=16V
a) The
equivalent capacitance of the parallel group.
b) The
equivalent capacitance of the entire network.
c) The
equivalent charge on the equivalent capacitance of the entire
network.
d) The
charge on the 160 mircoFarad capacitor.
e) The
voltage across the 160 mircoFarad capacitor.
f ) The
voltage across the parallel capacitor group.
160uF 16°F HA 24uF
consider the group of capacitators shown in the figure. Find the
equivalent capaticance between points a and d.
find the charge on 7.45 microF capacitor on the top.
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2. Consider the following circuit.a. What is the equivalent capacitance of this circuit? Express your answer in μF. b. What is the charge on the 2 uF capacitor? Express your answer in μC. c. What is the potential (i.e. voltage) across the 2 μF capacitor? Express your answer in Volts.
2. What is the equivalent capacitance in the circuit depicted below? What is the charge on the right side of the 3.00uF capacitor? 4.00 uF - 3.00 F 2.00 pF 14120v
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What is the equivalent capacitance of the capacitor network shown in Fig. 24-7? (All the capacitors have a capacitance C = 5 µF. The voltage of the battery is V =6V.)Answera)3 µFb)5 µFc)10 µFd)20 µFe)1 µF
The C1 -2.0 uF and 3.0 uF capacitor equivalent capacitance is X1-5.0 μF. Likewise, the C2-3.0 μF and 6.0 μF capacitors are also in parallel and have an equivalent capacitance of Y1-9.0屹The upper branch in Figure 26.11b now consists of a 4.0 μF capacitor and a 5.0 μF In series, which combine to give x2 according to the following equation. rs are in parallel and combine according to Ceq C1+C2. Their Likewise, the lower branch in Figure 26.11b consists of...