356919 Two wires of same dimension but resistivities \({\rho _1}\;and\;{\rho _2}\) are connected in series. The equivalent resistivity of the combination is:

356920 If the wire has resistivity per unit area of cross-section, the resistance between \(A\) and \(B\) is

356921 The resistance between the points \({A}\) and \({B}\) in the circuit shown is

356922 Three resistors having resistances \({r_1},{r_2}\) and \({r_3}\) are connected as shown in the given circuit. The ratio \(\frac{{{i_3}}}{{{i_1}}}\) of currents in terms of resistances used in the circuit is

356923 The equivalent resistance between the points \(A\) and \(B\) in the following circuit is

356919 Two wires of same dimension but resistivities \({\rho _1}\;and\;{\rho _2}\) are connected in series. The equivalent resistivity of the combination is:

356920 If the wire has resistivity per unit area of cross-section, the resistance between \(A\) and \(B\) is

356921 The resistance between the points \({A}\) and \({B}\) in the circuit shown is

356922 Three resistors having resistances \({r_1},{r_2}\) and \({r_3}\) are connected as shown in the given circuit. The ratio \(\frac{{{i_3}}}{{{i_1}}}\) of currents in terms of resistances used in the circuit is

356923 The equivalent resistance between the points \(A\) and \(B\) in the following circuit is

356919 Two wires of same dimension but resistivities \({\rho _1}\;and\;{\rho _2}\) are connected in series. The equivalent resistivity of the combination is:

356920 If the wire has resistivity per unit area of cross-section, the resistance between \(A\) and \(B\) is

356921 The resistance between the points \({A}\) and \({B}\) in the circuit shown is

356922 Three resistors having resistances \({r_1},{r_2}\) and \({r_3}\) are connected as shown in the given circuit. The ratio \(\frac{{{i_3}}}{{{i_1}}}\) of currents in terms of resistances used in the circuit is

356923 The equivalent resistance between the points \(A\) and \(B\) in the following circuit is

356919 Two wires of same dimension but resistivities \({\rho _1}\;and\;{\rho _2}\) are connected in series. The equivalent resistivity of the combination is:

356920 If the wire has resistivity per unit area of cross-section, the resistance between \(A\) and \(B\) is

356921 The resistance between the points \({A}\) and \({B}\) in the circuit shown is

356922 Three resistors having resistances \({r_1},{r_2}\) and \({r_3}\) are connected as shown in the given circuit. The ratio \(\frac{{{i_3}}}{{{i_1}}}\) of currents in terms of resistances used in the circuit is

356923 The equivalent resistance between the points \(A\) and \(B\) in the following circuit is

356919 Two wires of same dimension but resistivities \({\rho _1}\;and\;{\rho _2}\) are connected in series. The equivalent resistivity of the combination is:

356920 If the wire has resistivity per unit area of cross-section, the resistance between \(A\) and \(B\) is

356921 The resistance between the points \({A}\) and \({B}\) in the circuit shown is

356922 Three resistors having resistances \({r_1},{r_2}\) and \({r_3}\) are connected as shown in the given circuit. The ratio \(\frac{{{i_3}}}{{{i_1}}}\) of currents in terms of resistances used in the circuit is

356923 The equivalent resistance between the points \(A\) and \(B\) in the following circuit is