268457 Two conductors have the same resistance at \(0^{\circ} \mathrm{C}\) but their temperature coefficients of resistance are \(\alpha_{1}\) and \(\alpha_{2}\). The respective temperature coefficients of their series and parallel combinations are nearly [AIE -2010]

268490 Two batteries of differentemf and internal resistances connected in series with each other and with an external load resistor. The current is \(3.0 \mathrm{~A}\). When the polarity of one battery is reversed, the current becomes 1.0 A. The ratio of the emf of the two batteries is

268491 Thepd across terminals of a cell isfound to be 29 volt and 28 volt respectively when it delivers a current of 1 ampere and 2 ampere respectively. The emf and internal resistance of a cell are respectively

268492 The current in a circuit containing a battery connected to\(2 \Omega\) resistance is \(0.9 \mathrm{~A}\). W hen a resistance of \(7 \Omega\) connected to the same battery, the current observed in the circuit is \(0.3 A\). Then the internal resistance of the battery is

268457 Two conductors have the same resistance at \(0^{\circ} \mathrm{C}\) but their temperature coefficients of resistance are \(\alpha_{1}\) and \(\alpha_{2}\). The respective temperature coefficients of their series and parallel combinations are nearly [AIE -2010]

268490 Two batteries of differentemf and internal resistances connected in series with each other and with an external load resistor. The current is \(3.0 \mathrm{~A}\). When the polarity of one battery is reversed, the current becomes 1.0 A. The ratio of the emf of the two batteries is

268491 Thepd across terminals of a cell isfound to be 29 volt and 28 volt respectively when it delivers a current of 1 ampere and 2 ampere respectively. The emf and internal resistance of a cell are respectively

268492 The current in a circuit containing a battery connected to\(2 \Omega\) resistance is \(0.9 \mathrm{~A}\). W hen a resistance of \(7 \Omega\) connected to the same battery, the current observed in the circuit is \(0.3 A\). Then the internal resistance of the battery is

268457 Two conductors have the same resistance at \(0^{\circ} \mathrm{C}\) but their temperature coefficients of resistance are \(\alpha_{1}\) and \(\alpha_{2}\). The respective temperature coefficients of their series and parallel combinations are nearly [AIE -2010]

268490 Two batteries of differentemf and internal resistances connected in series with each other and with an external load resistor. The current is \(3.0 \mathrm{~A}\). When the polarity of one battery is reversed, the current becomes 1.0 A. The ratio of the emf of the two batteries is

268491 Thepd across terminals of a cell isfound to be 29 volt and 28 volt respectively when it delivers a current of 1 ampere and 2 ampere respectively. The emf and internal resistance of a cell are respectively

268492 The current in a circuit containing a battery connected to\(2 \Omega\) resistance is \(0.9 \mathrm{~A}\). W hen a resistance of \(7 \Omega\) connected to the same battery, the current observed in the circuit is \(0.3 A\). Then the internal resistance of the battery is

268457 Two conductors have the same resistance at \(0^{\circ} \mathrm{C}\) but their temperature coefficients of resistance are \(\alpha_{1}\) and \(\alpha_{2}\). The respective temperature coefficients of their series and parallel combinations are nearly [AIE -2010]

268490 Two batteries of differentemf and internal resistances connected in series with each other and with an external load resistor. The current is \(3.0 \mathrm{~A}\). When the polarity of one battery is reversed, the current becomes 1.0 A. The ratio of the emf of the two batteries is

268491 Thepd across terminals of a cell isfound to be 29 volt and 28 volt respectively when it delivers a current of 1 ampere and 2 ampere respectively. The emf and internal resistance of a cell are respectively

268492 The current in a circuit containing a battery connected to\(2 \Omega\) resistance is \(0.9 \mathrm{~A}\). W hen a resistance of \(7 \Omega\) connected to the same battery, the current observed in the circuit is \(0.3 A\). Then the internal resistance of the battery is