In the meterbridge experimental set up, shown the null point `D` is obtained at a distance of `40 cm` from end A of the meter bridge wire if a resistance of `10 Omega` is connected in series with `R_(1)`, null point is obtained at `AD = 30 cm`

In the meter bridge experimental set up, shown in the figure, the null point 'D' is obtained at a distance of 40 cm from end A of the meter bridge wire. If a resistance of 10 Omega is connected in series with R_(1), null point is obtained at AD = 60 cm. Calculate the values of R_(1) and R_(2).

(a) State Kirchhoff's rules for an electirc network. Using Kirchhoff's rules, obtain the balance condition in terms of the resistances of four arms of Wheatstone bridge. (b) In the meter bridge experimental set up, shown in the figure, the null point 'D' is obtained at a distance of 40 cm from end A of the meter bridge wire. If a resistance of 10 Omega is connected in series with R_(1), null point is obtained at AD = 60 cm. Calculate the values of R_(1) and R_(2).

In the experimental set up of meter bridge shown in the figure, the null point is obtained at a distance of 40 cm from A. If a 10 Omega resistance is connected in series with R1, the null point shifts by 10 cm. The resistance that should be connected in parallel with (R_(1) + 10) Omega such that the null point shifts back to its initial position is :

In meter bridge, the null points is found at a distance of 60.0 cm front end A. If now a resistance of 5 Omega is connected in series with S, the null point occurs at 50 cm. Determine the values of R and S,

In a meter bridge, the null point is found at a distance of 40 cm from A. If now a resistance of 12 Omega is connected in parallel with S, the null point occurs at 60 cm from A. Determine the value of R.

In the meter bridge shown in the above figure, the null point is found at a distance 33.7 cm from A and of the wire for particular values of R and S. If a resistance of 12Omega is connected parallel with S, the null point is found to be at 48.1 cm from B end. Determine the value of R and S.