In the circuit the eight cells are identicl each of emf 5V and internal resistance 0.2 ohm . find the reading of the voltmeter.
Asked by Ibrahim Mohammed | 8th May, 2015, 10:51: AM
Answered by Romal Bhansali | 8th May, 2015, 06:31: PM
- You are given 48 cells each of 1.48 volt and resistance 0.3 ohm. How would you arrange them to produce greatest current in a circuit of 5 ohm resistance?
- Why we use a combination of cells?
- For the series combination of cells, derive the condition in which the current through externally connected resistance is maximum.
- Three identical cells, each of emf 2 V and internal resistance 0.2 ohm are connected in series to an external resistor of 5.4 ohm. Calculate the current in the circuit.
- In given circuit the cells E1 and E2 have emfs 4 V and 8 V and the internal resistance 0.5 ohm and 10 ohm respectively. Calculate the current in each resistance.
- In the circuit shown, each battery is of 5 V and has internal resistance of 0.2 ohm. What will be the reading of an ideal voltmeter connecting across the battery?
- In which condition, the cells connected in parallel has maximum current?
- In which condition, the current through the mixed grouping of cells is maximum?
- Which combination of cells is the best to get maximum current, when the external resistance is much higher than the total internal resistance?
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