The internal resistance of a 2.1V cell which gives a current of 0.2A through a resistance of 10Ω is :
(1)0.2Ω
(2)0.5Ω
(3)0.8Ω
(4)1.0Ω
The resistances of the four arms P, Q,R and S in a Wheatstone's bridge are 10Ω ,30Ω ,30Ω and 90Ω, respectively. The emf and internal resistance of the cell are 7 V and 5 Ω respectively. If the galvanometer resistance is 50Ω, the current drawn from the cell will be
(1) 1.0A
(2) 0.2A
(3) 0.1A
(4) 2.0A
A millivoltmeter of 25 mV range is to be converted into an ammeter of 25 A range. The value (in ohm) of necessary shunt will be:
(1)0.001
(2)0.01
(3)1
(4)0.05
In the circuit shown the cells A and B have negligible resistances. For the galvanometer (g) shown no deflection.The value of is
(a)4V (b)2V
(c)12V (d)6V
If voltage across a bulb rated 220 V-100 W drops by 2.5% of its rated value, the percentage of the rated value by which the power would decrease is
(1)20%
(2)2.5%
(3)5%
(4)10%
A ring is made of a wire having a resistane
. Find the points A and B, as shown
in the figure, at which a current carrying
conductor should be connected so that the
resistance R of the sub circuit between these
points is equal to 8/3
1. 2.
3. 4.
The power dissipated in the circuit shown in
the figure is 30 Watt. The value of R is :
(1)
(2)
(3)
(4)
A cell having an emf internal resistance r is connected across a variable external resistance R. As the resistance R is increased, the plot of potential difference V across R is given by
(a)
(b)
(c)
(d)
If power dissipated in the 9 resistor in the circuit shown is 36 W, the potential difference across the 2 resistor is
1. 8 V
2. 10 V
3. 2 V
4. 4 V
A current of 2A flows through a 2 resistor
when connected across a battery. The same
battery supplies a current of 0.5 A when
connected across a 9 resistor. The internal
resistance of the battery is
(1)
(2)
(3)
(4)