If `C_(AB)` (equivalent ) = `(C ) /(2)` and capacitance of all the capacitors are C in vacuum without dielectric . Find the relation between `k_(1).k_(2).k_(3)`

Find the equivalent capacitance between A and B . All the capacitors have capacitance C .

If C and C_(0) are capacities of a capacitor with and " without dielectric medium respectively then dielectric constant of medium K is

A parallel -plate capacitor of area A , plate separation d and capacitance C is filled with four dielectric materials having dielectric constant k_(1), k_(2), k_(3) and k_(4) as shown in the figure below. If a single dielectric materical is to be used to have the same capacitance C in this capacitor, then its dielectric constant k is given by

The equivalent capacitance of three capacitors of capacitance C_(1):C_(2) and C_(3) are connected in parallel is 12 units and product C_(1).C_(2).C_(3) = 48 . When the capacitors C_(1) and C_(2) are connected in parallel, the equivalent capacitance is 6 units. then the capacitance are

In the figure a capacitor is filled with dielectrics K_(1) , K_(2) and K_(3) . The resultant capacitance is

Two identical capacitors of plate dimensions: l xx b and plate separation d have dielectric slabs filled in between the space of the plates as shown in the figures. if capacitance of both capacitor is same, Obtain the relation between the dielectric constant K, K_(1) and K_(2) .

A parallel plate capacitor of area A , plate separation d and capacitance C is filled with three different dielectric materials having dielectric constant K_(1),K_(2) and K_(3) as shown in fig. If a single dielectric material is to be used to have the same effective capacitance as the above combination then its dielectric constant K is given by :