Given `R_(1) = 5.0 +- 0.2 Omega, and R_(2) = 10.0 +- 0.1 Omega`. What is the total resistance in parallel with possible `%` error?

Given Resistance R_(1) = (8 +- 0.4) Omega and Resistence, R_(2) = (8 +- 0.6) Omega What is the net resistence when R_(1) and R_(2) are connected in series?

108 . If two resistors of resistances R_(1)= (4 +- 0.5 )Omega and R_(2) =(16+-0.5)Omega are connected (i) in series and (ii) in parallel, find the equivalent resistance in each case with limits of percentage error.

Two resistor R_(1) = (24 +- 0.5)Omega and R_(2) = (8 +- 0.3)Omega are joined in series, The equivalent resistence is

Two carbon resistances are given by R_(1)=(4pm0.4) ohm and R_(2)=(12pm0.6)Omega . What is their net resistance with percentage error, if they are connected in series?

1resistances R_(1)=(3.0+-0.1)Omega and R_(2)=(6.0+-0.2)Omega are to be joined together. (A) The maximum resistance obtainable is (9.0+-0.3)Omega (B) The maximum resistance obtainable is (9.0+-0.2)Omega (C) The minimum resistance obtainable is (2.0+-0.3)Omega (D) The minimum resistance obtainable is (2.0+-0.2)Omega

Two resistor of resistance R_(1)=(6+-0.09)Omega and R_(2)=(3+-0.09)Omega are connected in parallel the equivalent resistance R with error (in Omega)

In the circuit shown in Fig. the emf of the sources is equal to xi = 5.0 V and the resistances are equal to R_(1) = 4.0 Omega and R_(2) = 6.0 Omega . The internal resistance of the source equals R = 1.10 Omega . Find the currents flowing through the resistances R_(1) and R_(2) .

Three cells of emf, epsi_(1) = 1.5 V, epsi_(2) = 2.0 V and epsi_(3) = 3.0 V having internal resistance r_(1) = 0.30 Omega, r_(2) = 0.4 Omega and r_(3) = 0.6 Omega respectively are connected in parallel. Find out the equivalent emf and the equivalent resistance of a cell which can replace this combination.

The values of two resistors are R_(1)=(6+-0.3)kOmega and R_(2)=(10+-0.2)kOmega . The percentage error in the equivalent resistance when they are connected in parallel is

Two resistors R_1 = (4 pm 0.8) Omega and R_2 (4 pm 0.4) Omega are connected in parallel. The equivalent resistance of their parallel combination will be :