Two rods of length 0.25 and area `3 mm^2` are connected as shown in figure and their resistivities are `1.7 x 10^-8 Omega m` Find equivalent resistance

Five resistance are connected as shown in the figure . The equivalent resistance between P and Q will be

12 wires of different resistances are connected as shown. Find the equivalent resistance A and F.

Five 1 Omega resistance are connected as shown in the figure. The resistance in the conneting wires is negligilbe. The equivalent resistance between A and B is

Each resistance shown in figure is 2 Omega . The equivalent resistance between A and B is

10 wires (same length, same area, same material) are connected in parallel and each has 1Omega resistance, then the equivalent resistance will be

A copper rod of length 20cm and cross-sectional area 2mm^(2) is joined with a similar aluminium rod as shown in figure .Find the resistance of the combination between the ends, Resistivity of copper =1.7xx10^(-8)(Omega)m and that of aluminium =2.6xx10^(-8)(Omega)m .

A network of nine conductors connects six points A,B , C,D,E and F as shown in figure -3.97. The figure denotes resistances in ohms. Find the equivalents resistance between A and D. [1 Omega]

The resistance of a wire of length 330m and cross-section area 1.0 mm^(2) made of material of resistivity 1.0 xx 10^(-7) Omegam is:

Five resistance are connected as shown in the figure. The equivalent resistance between points A and C is

A potentiometer wire of length 10 m and resistance 30 Omega is connected in series with a battery of emf 2.5 V , internal resistance 5 Omega and an external resistance R . If the fall of potential along the potentiometer wire is 50 mu V mm^(-1) , then the value of R is found to be 23 n Omega . What is n ?