Eels are able to generate current with biological cells called electroplaques. The electroplaques in an eel are arranged in 100 rows, each row stretching horizontally along the body of the fish containing 5000 electroplaques. The arrangement is suggestively shown below. Each electroplaques has an emf of 0.15 V and internal resistance of 0.25 Ω
The water surrounding the eel completes a circuit between the head and its tail. If the water surrounding it has a resistance of 500 Ω, the current an eel can produce in water is about
(1) 1.5 A
(2) 3.0 A
(3) 15 A
(4) 30 A
When a piece of aluminum wire of finite length is drawn through a series of dies to reduce its diameter to half its original value, its resistance will become :
(1) Two times
(2) Four times
(3) Eight times
(4) Sixteen times
A cell whose e.m.f. is 2 V and internal resistance is 0.1 Ω, is connected with a resistance of 3.9 Ω. The voltage across the cell terminal will be :
(1) 0.50 V
(2) 1.90 V
(3) 1.95 V
(4) 2.00 V
The current in the given circuit is
(1) 0.1 A
(2) 0.2 A
(3) 0.3 A
(4) 0.4 A
In the given figure, the equivalent resistance between the points A and B is :
(1) 8 Ω
(2) 6 Ω
(3) 4 Ω
(4) 2 Ω
What is the current (i) in the circuit as shown in figure
(1) 2 A
(2) 1.2 A
(3) 1 A
(4) 0.5 A
Kirchhoff's first law i.e. at a junction is based on the law of conservation of :
(1) Charge
(2) Energy
(3) Momentum
(4) Angular momentum
The equivalent resistance of the following infinite network of resistances is
(1) Less than 4 Ω
(2) 4 Ω
(3) More than 4 Ω but less than 12 Ω
(4) 12 Ω