For what value of unknown resistance `X`, the potential difference between `B` and `D` will be zero in the circuit shown in the figure ? - Sarthaks eConnect
For what value of unknown resistance `X`, the potential difference between `B` and `D` will be zero in the `6 Omega` C. `2 Omega` D. `5 Omega`
For what value of unknown resistance X, the potential difference betwe
In the circuit shown in the figure, the value of Resistance X, when potential difference between the points B and D is zero will be
In the following circuit diagram, the value of resistance X, for which the potential difference between the points B and D is zero is equal to
In the combination of resistances shown in the figure the potential difference between B and D is zero, when unknown resistance x isA. 2 ΩB. The emf of the cell is requiredC.
Using Kirchhoff 's rules determine the value of unknown resistance R in the circuit so that no current flows through 4 ohm - Sarthaks eConnect
Using Kirchhoff's rules calculate the current through the 40 Ω and 20 Ω resistors in the following circuit: - Sarthaks eConnect
In the arrangement of resistances shown in the circuit, the potential difference between points B and D will be zero, when the unknown resistance X is equal to
In the following circuit diagram the value of resistance X the potential difference between B and D is zero:4 ohm6 ohm8 ohm9 ohm
Solved Figure P25.54 V a a b 25.54 “. In the circuit shown
In the combination of resistances shown in the figure the potential difference between B and D is zero, when unknown resistance x isA. 2 ΩB. The emf of the cell is requiredC.
For what value of unknown resistance X, the potential difference betwe
In the following circuit diagram the value of resistance X the potential difference between B and D is zero :-6 ohm4 ohm8 ohm9 ohm
Solved Part A For the capacitor network shown in (Figure 1
24. For what value of unknown resistance X, the potential difference between B and D will be zero in the circuit shown in the figure? B [ MP PMT 20041 12 Spor
