Figure 25-36 shows a parallel plate capacitor with a plate area `A=789 cm^2` and plate separation d=4.62 mm. The top half of the gap is filled with material of dielectic constant `k_1=11.0`, the bottom half is filled with material of dielectric constant `k_2=4.0` What is the capacitance?

Figure 25-30 shows a parallel plate capacitor with a plate area A=5.56 cm^2 separation d=5.56 mm. The left half of the gap is filled with material of dielectric constant k_1=7.00 , the right half is filled with material of dielectric constant k_2=10.0 what is the capacitance?

Figure 25-32 shows a parallel plate capacitor of plate area A=12.5 cm^2 and plate separation 2d=7.12mm. The left half of the gap is filled with material of dielectric constant k_1=21.0 the top of the right half is filled with material of dielectric constant k_2=42.0 the bottom of the right half is filled with material of dielectric constant k_3=58.0 What is the capacitance?

A parallel plate capacitor has plate area A and plate separation d. The space betwwen the plates is filled up to a thickness x (ltd) with a dielectric constant K. Calculate the capacitance of the system.

A parallel plate capacitor with plate area A & plate separation d is filled with a dielectric material of dielectric constant given by K=K_(0)(1+alphax). . Calculate capacitance of system: (given alpha d ltlt 1) .

The capacitance of a parallel plate capacitor with plate area A and separation d is C . The space between the plates in filled with two wedges of dielectric constants K_(1) and K_(2) respectively. Find the capacitance of resulting capacitor.

A parallel-plate capacitor having plate are 100 cm ^2 and separation 1.0 mm holds a charge of 0.12 muC when connected to a 120 V battery. Find the dielectric constant of the material filling the gap.

Figure shown a parallel-plate capacitor having square plates of edge a and plate-separation d. The gap between the plates is filled with a dielectric of dielectric constant K which varies parallel to an edge as where K and a are constants and x is the distance from the left end. Calculate the capacitance.

A parallel plate capacitor of plate area A and separation d is filled with two materials each of thickness d/2 and dielectric constants in_1 and in_2 respectively. The equivalent capacitance will be

Figure shows a parallel plate capacitor with plate area A and plate separation d . A potential difference is being applied between the plates. The battery is then disconnected and a dielectric slab of dieletric constant K is placed in between the plates of the capacitor as shown. The electric field in the gaps between the plates and the electric slab will be