A hollow spherical shell of radius $r$ has a uniform charge density $\sigma$. It is kept in a cube of edge $3 r$ such that the centres of the cube and the shell coincide. Then the electric flux coming out of one face of a cube is ( $\varepsilon_0=$ permittivity of free space)
The circuit shows two capacitor $A$ and $B$ of capacitances $C$ and $2 C$ respectively.
When they are fully charged, the cell is removed and the capacitors are connected with their plates of opposite polarities touching each other. Then
(i) Charge on $A$ is $\frac{4 C E}{9}$
(ii) Charge on $B$ is zero
(iii) Loss of energy in this process is $\left(C E^2 / 3\right)$
The correct statement/s is/are

A uniform conducting wire $A B$ of length 5 m and resistance $5 \Omega$ is connected as shown in the circuit. If the balancing point is obtained at 3 m from $A$, then the value of $E$ is

In the given circuit, the equivalent resistance between $A$ and $B$ is

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