Three capacitors of capacitance `C_(1)= 3mu f, C_(2)= 6mu f and C_(3)= 10mu f`, are connected to a 10V battery as shown in Figure 3 below

Calculate:
Equivalent capacitance

Three capacitors of capacitance C_(1)= 3mu f, C_(2)= 6mu f and C_(3)= 10mu f , are connected to a 10V battery as shown in Figure 3 below Calculate: Electrostatic potential energy stored in the system

Three capacitors C_1 = 3muF, C_2 = 6muF and C_3 = 10muF are connected to a 50 V battery as shown in the figure below: Calculate : The equivalent capacitance of the circuit between points A and B.

Three capacitors C_1 = 3muF, C_2 = 6muF and C_3 = 10muF are connected to a 50 V battery as shown in the figure below: Calculate : The charge on C_1

Three capacitors C_(1)=6muF,C_(2)=12muF and C_(3)=20muF are connected to a 100 V battery, as shown in figure below: (i) Charge on each plate of capacitor C_(1) . (ii) Electrostatic potential energy stored in capacitor C_(3) .

Three uncharged capacitors of capacitance C_1,C_2 and C_3 are connected to one another as shown in figure. The potential at O will be

Three uncharged capacitors of capacitance C_(1)=1mu F, C_(2)=2mu F and C_(3)=3mu F are connected as shown in the figure. The potential of point A, B and D are 10 volt, 25 volt and 20 volt respectively. Determine the potential at point O.

Three identical capacitors C_(1) , C_(2) and C_(3) of capacitance 6 mu F each are connected to a 12 V battery as shown in Fig. Find (i) charge on each capcitor (ii) equivalent capacitance of the network. (iii) energy stored in the network of capacitors.

Four capacitors, C_(1) C_(2) C_(3) and C_(4) are connected as shown in figure below. Calculate • equivalent capacitance of the circuit between points X and Y.

Three capacitors C_(1), C_(2) and C_(3) are connected to a battery as shown in the figure . The three capacitors have equal capacitances. Which capacitor stores the most energy ?