You are given two resistances `R_(1)` and `R_(2)`. By using them singly, in series and in parallel, you can obtain four resistances of `1.5Omega, 2Omega, 6Omega` and `8Omega`. The value of `R_(1)` and `R_(2)` are

A technician has onlytwo resistance coils. By using them singly, in series or in parallel, he is able to obtain the the resistance 3 Omega,4 Omega,12 Omega and 16 Omega . The resistance of two coils are:

When two resistors of resistances R_1 and R_2 are connected in parallel, the net resistance is 3 Omega . When connected in series, its value is 16 Omega . Calculate the values of R_1 and R_2 .

Two resistance R_(1)=100pm 3Omega and R_(2)=200pm4Omega are connected in seriesg. What is their equivalent resistance?

Two resistance R_(1) and R_(2) are connected in (i) series and (ii) parallel. What is the equivalent resistance with limit of possible percentage error in each case of R_(1)=5.0+-0.2Omega and R_(2)=10.0+-0.1Omega

Two resistances R_(1) = 100 +- 3 Omega and R_(2) = 200 +- 4 Omega are connected in series . Find the equivalent resistance of the series combination.

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)

An Aluminium (alpha=4xx10^(-3)K^(-1)) resistance R_(1) and a carbon (alpha=-0.5xx10^(-3)K^(-1)) resistance R_(2) are connected in series to have a resultant resistance of 36Omega at all temperatures. The values of R_(1) and R_(2) in Omega respectively are:

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

How will you connect three resistors of 2Omega, 3Omega and 6Omega to obtain a total resistance of : (a) 4Omega , and (b) 1Omega ?