If metal section of shape `H` is inserted in between two parallel plates as shown in figure and `A` is the area of each plate then the equivalent capacitance is.
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The equivalent capacitance of the arrangement shown in figure, if A is the area of each plate is

A metallic plate of thickness (t) and face area of one side (A) is inserted between the plates of a parallel plate air capacitor with a separation (d) and face are (A). Then the equivalent capacitance is

Two capacitors are made in series by two metal plates and one I structure as shown in figure. The area of each plate shown is A .The equivalent capacitance between top and bottom plate of this system is given as:

A slab of copper of thickness b is inserted in between the plates of a parallel plate capacitor as shown in figure. The separation of the plates is d. If b = d//2 , then the ratio of capacities of the capacitor after and before inserting the slab will be

Six plates of equal area A and plate separation as shown in figure as shown are arranged. The equivalent capacitance between A and B is

Five identical metal plates each of area A are placed at equal separation d as shown in figure and are connected with conducting wires. The equivalent capacitance across points A and B is

For the congiuration of mede of permittiveties epslon_(0), epsilon, and epsilon_(0) between parallel plates each of area A , as shown in the equivalent capacitance is . .

Four metal plates numbered 1,2,3 and 4 are arranged , as shown in figure . The area of each plate is A and the separation between them is d . The capacitance of the arrangement is

A condcuting slab of thickness d/2 is inserted between the plates of parallel plate capacitor as shown in the figure . The energy stored in the capacitor when terminals of capacitor are connected across a battery of emf 2V is (plate area is A)