Two resistances `R_1 = (16 +- 0.3) ohm and R_2 = (48 +- 0.5) ohm` are connected in parallel. Find the total resistance of the combination and maximum percentage error.

Two resistances R_(1)=(15 pm 0.5) Omega" and "(20 pm 0.7)Omega are connected in parallel. Calculate the total resistance of the combination and maximum percentage error.

Two resistance r_1 = (100.0+- 0.3) ohm and r_2 = (150.0+- 0.5) ohm are connected in series. Calculate the combined resistance with error limits.

Two resistance R_(1) = 50 pm 2 ohm and R_(2) = 60 ohm connected in series , the equivalent resistance of the series combination in

Two resistors of resistances R_1 = 100 pm 3 ohm and R_2 = 200 pm 4 ohm are connected (a) in series , (b) in parrallel. Find the equivalent resistance of the (a) series combination , (b) parallel combination . Use for (a) the relation R = R_1 + R_2 and for (b) 1/R = 1/(R_1) + 1/(R_2) and (DeltaR')/(R^(,2)) = (DeltaR_1)/(R_1^2) + (DeltaR_2)/(R_2^2)

Two resistors of resistances R_1 = 100 pm 3 ohm and R_2 = 200 pm 4 ohm are connected (a) in series , (b) in parrallel. Find the equivalent resistance of the (a) series combination , (b) parallel combination . Use for (a) the relation R = R_1 + R_2 and for (b) 1/R = 1/(R_1) + 1/(R_2) and (DeltaR')/(R^(,2)) = (DeltaR_1)/(R_1^2) + (DeltaR_2)/(R_2^2)

Two resistors of resistances R_1 = 100 pm 3 ohm and R_2 = 200 pm 4 ohm are connected (a) in series , (b) in parrallel. Find the equivalent resistance of the (a) series combination , (b) parallel combination . Use for (a) the relation R = R_1 + R_2 and for (b) 1/R = 1/(R_1) + 1/(R_2) and (DeltaR')/(R^(,2)) = (DeltaR_1)/(R_1^2) + (DeltaR_2)/(R_2^2)

Two resistors of resistances R_1 = 100 pm 3 ohm and R_2 = 200 pm 4 ohm are connected (a) in series , (b) in parrallel. Find the equivalent resistance of the (a) series combination , (b) parallel combination . Use for (a) the relation R = R_1 + R_2 and for (b) 1/R = 1/(R_1) + 1/(R_2) and (DeltaR')/(R^(,2)) = (DeltaR_1)/(R_1^2) + (DeltaR_2)/(R_2^2)

Two resistors of resistances R_1 = 100 pm 3 ohm and R_2 = 200 pm 4 ohm are connected (a) in series , (b) in parrallel. Find the equivalent resistance of the (a) series combination , (b) parallel combination . Use for (a) the relation R = R_1 + R_2 and for (b) 1/R = 1/(R_1) + 1/(R_2) and (DeltaR')/(R^(,2)) = (DeltaR_1)/(R_1^2) + (DeltaR_2)/(R_2^2)

The resistors of resistances R_(1)=100pm3" ohm and R"_(2)=200pm 4ohm are connected in series. The equivalent resistance of the series combination is