In the circuit shown `E, F, G` and `H` are cells of emf `2V, 1V, 3V` and `1V` respectively and their internal resistance are `2Omega, 1Omega, 3Omega` and `1Omega` respectively.

In the circuit shown in figure 16, E, F, G and H are cells of emf 2 V, 1 V, 3 V and 1 V and their internal resistance are 2 Omega, 1 Omega, 3 Omega and 1 Omega respectively. Calculate (i) the potential differnce between B and D and (ii) the potential difference across the terminals of each of the cells G and H.

In the circuit shown in figure-3.159 cells E,F,G and H are of EMF 2V, 1V,3V and 1V respevitly and their internal resitance are 2Omega,1Omega,3Omega and 1Omega respectively Calculate (a) The potential difference between points B and D (d) The potential difference across the terminals of the cell G and H.

In the circuit shown in E, F, G, and H are cells of emf 2,1,3 and 1 V, respectively. The resistances 2Omega, 1Omega, 3Omega and 1Omega are their respectivle internal resistances. i. Find the potential difference between B and D. (ii) Calculate the potential differences across the terminals of each of the cells G and H.

In the circuit shown in E, F, G, and H are cells of emf 2,1,3 and 1 V, respectively. The resistances 2Omega, 1Omega, 3Omega and 1Omega are their respectivle internal resistances. i. Find the potential difference between B and D. (ii) Calculate the potential differences across the terminals of each of the cells G and H.

The emf of the batteries E, F, G and H are 2 V, 1 V, 3 V and 1 V respectively. Their internal resistance are respectively 2 Omega, 1 Omega, 3 Omega and 1 Omega respectively. Calculate potential difference between B and D.

In the circuit show in the figure E,F,G and H are cells of e.m.f. 2,1,3 and 1 V and their internal resistances are 2,1,3 and 1Omega respectively. Calculate the potential difference across the terminals of each of the cells G and H.

Three cells are connected in parallel with their like poles connected together with wires of negligible resistance. The e.m.f. of the cells are 2V, 3V and 4V respectively and their internal resistances are 1 Omega , 2Omega and 3Omega , respectively. Find the current through each branch.

In the circuit shown in figure E,F, G and H are cell of emf 2,1,3, and 1 V respectively. The resistances 2,1,3 and 1(Omega)are their respective internal resistance .Calculate (a)the potential difference between B and D and (b) the potential differences across the terminals of each of each of the cells G and H.

In the circuit shown in figure E,F, G and H are cell of emf 2,1,3, and 1 V respectively. The resistances 2,1,3 and 1(Omega)are their respective internal resistance .Calculate (a)the potential difference between B and D and (b) the potential differences across the terminals of each of each of the cells G and H.

In the circuit shown in figure below, E_(1) and E_(2) are batteries having emfs 4.0 V and 3.5 V respectively and internal resistance 1Omega and 2Omega respectively. Using Kirchhoff.s laws, calculate currents : I_(1),I_(2) and I_(3) .