Three capacitors C₁-10 µF, C₂-12 µF and C3-8 μF are connected as shown in Fig. Only capacitor C₁ has initial charge of 1100 µC. Now, switch is closed. What is the final charges stored in C1?
Q: In the figure V = 11 V, C₁ = 10 μF, and C₂ = C3= 19 µF. Switch S is first thrown to the left side…
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A: 3.34V
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Q: = 30.6 μC. Then, she disconnects and discharges C₁, and connects it An engineer has three different…
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Q: Refer to diagram 2. In the diagram: C, = 8.71 µF, C2 = 5.22 µF, C3 = 2.15 µF, C4 = 8.78 µF and V =…
A: Capacitor C3 and C4 are in parallel, so the equivalent capacitance is C34=2.15 μF+8.78 μF=10.93 μF…
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Q: The capacitors in the figure are initially uncharged. The capacitances are C₁ = 4.5 µF, C₂ = 6.9 μF,…
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Q: Capacitors C1 = 6.0 µF and C2 = 2.0 µF are charged as a parallelcombination across a 250 - V…
A: Given:C1 = 6 μFC2 = 2 μFApplied voltage = 250 VGiven:C1 = 6 μFC2 = 2 μFApplied voltage = 250…
Q: Capacitors C1 and C2 are connected, as shown, with voltage source V0. Let C1=2.9μF, let C2=9.7μF,…
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Q: potential difference is V = 12 V. When switch S is closed, how many electrons travel through (a)…
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Q: Two capacitors, C1 = 5.92 µF and C2 = 3.30 µF, are connected in parallel, then the combination is…
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Q: = 12.0 V battery, and the C2 = 9.41 capacitor is uncharged. With the switch in position A, the C1 =…
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Q: Two capacitors of capacitance C₁ = 100 nF and C₂ = 5 µF are connected in parallel across a cell with…
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Q: Find the following. (In the figure use C1 = 37.80 µF and C2 = 31.80 µF.) (a) the equivalent…
A: a)The equivalent capacitance of the capacitors 6.00 μFand C2 = 31.80 μF is C' = 6.00 + C2 = 6.00 +…
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- Three capacitors, with capacitances C1 = 4.0 μF, C2 = 3.0 μF, and C3 = 2.0 μF, are connected to a 12-V voltage source, as shown in the figure. What is the charge on capacitor C2?Two capacitors, C1 = 5.92 µF and C2 = 3.30 µF, are connected in parallel, then the combination is connected to a 250 V battery. When the capacitors are charged, each one is removed from the circuit. Next, the two charged capacitors are connected to each other so that the positive plate of one capacitor is connected to the negative plate of the other capacitor. What is the resulting charge on each capacitor (in µC)? q′1= µC q′2= µC (b) What If? What is the resulting charge on each capacitor (in µC) if they are instead charged as a series combination and then connected positive plate to positive plate and negative plate to negative plate? q′1= µC q′2= µCConsider four capacitors connected to a 9.0-V battery in the configuration shown in the diagram. The capacitors have the followving capacitances: Cq is 7.4 µF, C2 is 6.4 µF, C3 is 12.4 µF and C4 is 4.1 µF. C1 C3 9.0V C2 C4 (a) Calculate the equivalent capacitance of the configuration shows in the diagram and the total energy stored by the equivalent capacitance. Be sure to explain your reasoning. (b) Find the potential difference across each capacitor and the charge stored on each capacitor. Be sure to explain your reasoning and show your work . Summarize your answers in a table like the one below in your hand-written answer: Capacitance: Potential Difference: Charge C;= AV;= Qı= Cz= AVz= Q²= C3= AV3= Q3= C4= AV== Q«=
- Two capacitors C₁ = 4 μF and C₂ = 6 µF are connected in series across a 5V battery and charged. What is the total energy stored on the capacitors when fully charged?The figure shows a 10.5 V battery and four uncharged capacitors of capacitances C1 = 1.09 µF,C2 = 2.21 µF,C3 = 3.08 µF, and C4 = 4.34 µF. If only switch Sq is closed, what is the charge on (a) capacitor 1, (b) capacitor 2, (c) capacitor 3, and (d) capacitor 4? If both switches are closed, what is the charge on (e) capacitor 1, (f) capacitor 2, (g) capacitor 3, and (h) capacitor 4? (a) Number .00000845 Units C (b) Number .00001537 Units (c) Number .00000845 Units (d) Number .00001537 Units (e) Number i Units C (f) Number i Units (g) Number i Units (h) Number i UnitsThe capacitances are C= 0.5 µF and C2= 1.5 µF, and both capacitors are charged to a potential difference of V= 200 V but with opposite polarity as shown. Switches S, and S2 are now closed. What is now the potential difference between points a and b in Volts? A BCD E 50 200 100 150 250 Lütfen birini seçin: O A O B O D ОЕ
- The capacitors in the figure are initially uncharged. The capacitances are C₁ = 3.3 µF, C₂-9.6 μF, and C3= 10 μF, and the battery's potential difference is V 11 V. When switch S is closed, how many electrons travel through (a) point a, (b) point b. (c) point c, and (d) point d? (e) In the figure, do the electrons travel up or down through point b? (f) In the figure, do the electrons travel up or down through point c? I!! (a) Number (b) Number (c) Number (d) Number (e) b Units Units Units UnitsCapacitors C1 and C2 were charged with a potential difference of 100 V, but by the opposite polarity. Switches S1 and S2 close at the same time. What is the potential difference between points a and b?C1=C2 =6.0 μF, C3=7.0 μF, and the battery voltage is 12V. All capacitors are fully charged and the current is no longer running through the circuit. A) What are the charges on them? B) what is the potential difference across each?
- Figure given below shows capacitor 1 (C, = 8.00 µF), capacitor 2 (C2 = 6.00 µF), and capacitor 3 (Cz = 8.00 µF) connected to a 12.0 V battery. When switch S is closed so as to connect uncharged capacitor 4 (C4 = 6.00 µF), how much charge passes through point P from the battery.Problem 5: In the circuit below AVbat. C1 = 15 µF, C2 = 20 µF, C3 = 30 µF are initially uncharged. (a) What is Q1,a, Q2,a, Q3,a? The charges on the capacitors when S is closed at position a. Answers: Q1.a The switch is then put in position b. What is Q1,b, Q2,b, Q3,6? The charges on the capacitors when S is put in position b. Answers: Q1,b = 833.3 µC, Q2,6 = 666.7 µC, Q3,6 = 666.7 µC. 100 V, the switch S is initially open, and the capacitors = 1500 µC, Q2,a = 0 µC, Q3,a = 0 µC. (b) b а C2 AVpat C1 C3The circuit shows a network of 4 identical capacitors. When the switch is in position 1, the capacitor C is charged by 36 µC while the capacitors C2 C3 and C4 are uncharged. When the switch is moved to position 2, the charge (in uC) stored by Capacitor C3 becomes: 1 2 30 3. 12 27