In the arrangement C_(1) = 10 mu, F C_(2)= 10 mu F and C_(3)= 20 mu F . What is the equivalent capacitance ( in mu F ) between points A and B ?

Take C_1=4.0mu F and C_1=6.0mu F in figure. Calculate the equivalent capacitance of the combination between the point s indicated.

Figure 25-43 shows a 24.0 V battery and four uncharged capacitors of capacitances C_1=1.00 mu F, C_2=2.00 mu F C_3=3.00 mu F and C_4=4.00 mu F IF only switch S_1 is closed, what is the charge, on (a) capacitor 1 (b) capacitor 2 (c ) capacitor 3 and (d) capacitor 4? IF both switches are enclosed , what is the charge on (e) capacitors1.(f) capacitor 2, (g) capacitor 3, and (h) capacitor 4?

In Fig.25-25 a potentila difference V=100V is applied across a capacitor arragnement with capacitances C_1=10.0 mu F, C_2=5.00 mu F and C_3=2.00 mu F What are (a) charge q_3 , (B) potential difference V_3 and (c ) stored energy U_3 for capacitor 3 (d) q_1 (v) v_1 and (f) U_2 for capacitor 1, and (g) q_3 (h) V_2 and (i) U_2 for capacitor 2?

Find the equivalent capacitance between P and Q if C_1 = 6 mu F and C= 9 mu F

In fig.25-25 a potential arrangement with capacitances applied across a capacitor arrangement with capacitances C_1=10.0 mu F,C_2=5.00 mu F, and C_3=4.00 mu F . IF capacitor 3 undergoes electrical breakdown so that is becomes equivalent to conducting wire, then for capacitor 1 what are the increase in (a) charge, (b) potential difference, and ( c) stored energy

In Fig. 25-25 a potential difference V=75.0 V is applied across a capacitor arrangement with capacitances C_1=10.0mu F, C_2=5.00 mu F, and C_3=15.0 mu F . What are (a) charge q_3 (b) potential difference V_3 and ( c) stored energy U_3 for capacitor 3, (d) q_1 (e) V_1 and (f) U_1 for capacitor 1, and (g) q_2 (h) V_2 and (i) U_2 for capacitor 2?

In the circuit shown the capacitors are C_1 = 15mu F , C_2 = 10 mu F and C_2 = 25 mu F . Find (i) The equivalent capacitance of the circuit (ii) The charge on each capacitor and (iii) The potential difference a across each capacitor.

Figure 25-27 displays a 16.0 V battery and 3 uncharged capacitors of capacitances C_1=4.00 mu F, C_2=6.00 mu F and C_3=3.00 mu F The switch is thrown to the left side until capacitor 1 is fully charged. Then the switch is thrown to the right. What is the final charge on (a) capacitor 1, (b) capacitor 2 and (c ) capacitor 3?

Consider two capacitors : C_(1) = 10 mu C and C_(2) = 40 mu F . What is the equivalent capacitance if the two are connected. (1) in parallel ? (2) in series ? (3) If the two are connected in series to a 9.0 volt battery what are the charges Q_(1) and Q_(2) stored on the two capacitors ?