24.41 Six capacitors are connected as shown in the figure. a) If C3 = 2.300 nF, what does C, have to be to yield an equivalent capacitance of 5.000 nF for the combination of %3D C6 C4 C5 the two capacitors? b) For the same values of C, and C3 as in part (a), what is the value of C, that will give an equivalent capacitance of 1.914 nF for the combination of the three capacitors? c) For the same values of C, C2, and C, as in part (b), what is the equivalent capacitance of the whole set of capacitors if the values of the other capacitances are C = 1.300 nF, C, = 1.700 nF, and C, = 4.700 nF? d) If a battery with a potential difference of 11.70 V is connected to the capacitors as shown in the figure, what is the total charge on the six capacitors? V %3D e) What is the potential drop across C, in this case?

Would you help me with d and c? This is for my practice set. Thank you!

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24.41 Six capacitors are connected as shown in the figure. a) If C3 = 2.300 nF, what %3D C6 does C, have to be to yield an equivalent capacitance of 5.000 nF for the combination of C5 the two capacitors? halion V b) For the same values of C, and C3 as in part (a), what is the value of C, that will give an equivalent capacitance of 1.914 nF for the combination of the three capacitors? c) For the same values of C, C2, and C, as in part (b), what is the equivalent capacitance of the whole set of capacitors if the values of the other capacitances are C4 = 1.300 nF, C; = 1.700 nF, and C = 4.700 nF? d) If a battery with a potential difference of 11.70 V is connected to the capacitors as shown in the figure, what is the total charge on the six capacitors? %3D e) What is the potential drop across C, in this case?