In (Figure 1), each capacitor has C= 4.80 F and Vab = 30.0 V.
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- Find the total capacitance of the combination of capacitors shown in the figure, where C1 = 5.15 uF, C2 = 3.55 uF, C3 = 7.25 uF, C4 = 2.25 uF, C5 = 0.750 uF, and C6 = 15.0 uFA capacitor must hold 549 µC of charge. If you will use 7.32 V to do this, how large of a capacitor do you need, in µF?Two capacitors give an equivalent capacitance of 10.49 pF when connected in parallel and an equivalent capacitance of 1.69 pF when connected in series. What is the capacitance in pF of the capacitor with the larger capacitance? Round your answer to 2 decimal places.
- Two capacitors give an equivalent capacitance of 10.76 pF when connected in parallel and an equivalent capacitance of 1.78 pF when connected in series. What is the capacitance in pF of the capacitor with the larger capacitance? Round your answer to 2 decimal places.your answers. Find a) the total capacitance of the capacitors in the figure, and b) the charge on each capacitor 6.00 uF 8.00 uF 4P 2.00 uF H + 9.00 V 8.00 uF toFind the total capacitance Ctot of the combination of capacitors shown in the figure, where C₁ = 5.15 µF, C2 = 3.55 µF, C3 = 5.75 µF, C4 = 1.25 µF, C5 = 0.750 μF, and C6 = 15.0 uF. Ctot = Question Credit: OpenStax College Physics µF C₁ C₁ 0 C₂ 1.1 C₂ C₁ C6
- 15.0 µF 3.00 µF 7. Four capacitors are connected as shown in the figure. Find the equivalent capacitance between points a and b. Ans(Ceq =5.96 µF) 20.0 uF 6.00 μFIn the figure below, V = 12V, C1 = 10μF, C2 = 20μF, and C3 = C4 = 30μF. Assume the voltage source V as been connected for a long time (so all the capacitors are fully charged). What is the potential energy stored in each capacitor when they are fully charged?What charge (in mC) is stored in a 1.60 µF capacitor when 260 V is applied to it?