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- A portion of a larger circuit is shown in the diagram below. The potential drop between points b and a is Vba = 4.0 V. Similarly, Vcb =3.5 V, Vcd = 2.0 V, Vdf = -0.5 V. Here, if Vba is greater than zero, then a is at a higher potential than b. Answer the following questions in SI units. 1. What is the potential difference Vgf? 2. What is the potential difference Vca? 3. What is the potential difference Vag?Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values,C1=22.5 μF,C2=45.5 μF, ,C3=50.5 μF, and ,C4=40.5 μF, and the power supply is at voltage V=25.5 V. What is the equivalent capacitance of the circuit? equivalent capacitance: What is the charge on capacitor ?2?C2? charge on C2: What is the potential difference across capacitor C3? What is the potential energy stored in capacitor C4?Find the total capacitance of the combination of capacitors shown: 5.0 μF 3.5 μF 8.0 uF I 1.5 μF F 0.75 μF 15 μF Hint: Identify parts of the circuit that are parallel or in series. Replace these parts by their equivalent capacitance. Draw a circuit diagram of the simplified circuit with the equivalent capacitances. Repeat the steps above until you simiplfy the circuit as much as possible. C = μF
- What is the effective capacitance between points "a" and "b" in the circuit diagram below? Each capacitor has capacitance of 6 µF. a b 1 μF. 3 µF. 4 µF. 6 µF. 9 µF.Consider the circuit shown in the figure below. The four capacitors have capacitances C1=10µF, C2=1/µF, C3=14µF, C4=19µF and are connected to a battery of voltage V=37Volts. When all capacitors are fully charged, determine the voltage across C1. Express your answer in units of Volts using one decimal place. C2 C3 C1 VConsider the circuit shown in (Figure 1). Assume E = 15 V. a)What is the charge on 3.0 μFcapacitor? Express your answer with the appropriate units. b)What is the charge on 4.0 μF capacitor? Express your answer with the appropriate units. c)What is the charge on 6.0 μF capacitor? Express your answer with the appropriate units.
- In the circuit in the figure, the capacitance of each C1 capacitor is 5.7 μF, and the capacitance of each C2 capacitor is 3.8 μF. Part A: Calculate the equivalent capacity of the circuit between points a and b.Express your answer using two meaningful numbers.(Ceq=...F) Part B: Calculate the loads on the three capacitors closest to points a and b for Vab = 500 V.Express your answer using two meaningful numbers.(Q1=...V) Part C : Q2 (Q2=....V) Part D : The potential difference between a and b is given as 500 V, calculate Vcd.Express your answer using two meaningful numbers.( Vcd=......V)A combination of series and parallel connections of capacitors is shown in the figure. The sizes of the capacitors are listed below.Randomized VariablesC1 = 1.73 μFC2 = 6.2 μFC3 = 10.6 μF Find the total capacitance of the combination of capacitors, in microfarads.a) Draw a circuit diagram for a circuit that uses the given resistors and capacitors and satisfies the instructor’s criteria for the circuit. b) How long does it take the capacitors in this circuit to charge to 50.0% of their maximum capacity?
- A) what is the equivalent capacitance of C eq of the circuit? B) Find the voltage across and charge stored on EACH of the capacitors in the circuit.In the figure below, C1 = 5.4 µF, C2 = 8.4 ;µF, and C3 = 9.3 µF. C1 C3 C2 A. Identify the capacitors that are in parallel or in series. B. Calculate the equivalent capacitance of this circuit by showing intermediate steps.Four capacitors are connected as shown in Fig. 1. C1 = 4.50 μF, C2 = 7.50 μF, C3 = 2.50 μF and C4 = 4.50 μF. V = 20.0 V. (a) What is the equivalent capacitance for this circuit? Enter your answer in μF. (b) What is the voltage across capacitor 2? (c) What is the voltage across capacitor 3?