In the network shown in the figure, each of the resistance is equal to 2 Ω. The resistance between the points A and B is 

1. 1 Ω

2. 4 Ω

3. 3 Ω

4. 2 Ω

In the arrangement of resistances shown below, the effective resistance between points A and B is

1. 20 Ω

2. 30 Ω

3. 90 Ω

4. 110 Ω

In the Wheatstone's bridge shown, P = 2 Ω, Q = 3 Ω, R = 6 Ω and S = 8 Ω. In order to obtain balance, shunt resistance across 'S' must be [SCRA 1998]

1. 2 Ω

2. 3 Ω

3. 6 Ω

4. 8 Ω

Potential difference between the points P and Q in the electric circuit shown is 

1. 4.5 V

2. 1.2 V

3. 2.4 V

4. 2.88 V

In a typical Wheatstone network, the resistances in cyclic order are A = 10 Ω, B = 5 Ω, C = 4 Ω and D = 4 Ω for the bridge to be balanced 

1. 10 Ω should be connected in parallel with A

2. 10 Ω should be connected in series with A

3. 5 Ω should be connected in series with C

4. 5 Ω should be connected in parallel with B

In the circuit shown in figure, the current drawn from the battery is 4A. If 10 Ω resistor is replaced by 20 Ω resistor, then current drawn from the circuit will be 

1. 1 A

2. 2 A

3. 3 A

4. 4 A

If each of the resistance of the network shown in the figure is R, the equivalent resistance between A and B is 

1. 5 R

2. 3 R

3. R

4. R/2

Thirteen resistances each of resistance R ohm are connected in the circuit as shown in the figure below. The effective resistance between A and B is 

1. 2R Ω

2. $\frac{4R}{3}\Omega$

3. $\frac{2R}{3}\Omega$

4. R Ω

For what value of unknown resistance X, the potential difference between B and D will be zero in the circuit shown in the figure 

1. 4 Ω

2. 6 Ω

3. 2 Ω

4. 5 Ω