Two resistances `R_(1) = (100 pm 3)Omega, R_(2) = (150 pm 2)Omega`, are connected in series. What is their equivalent resistance?

Two resistances R_1(100 pm 3)Omega" and "R_2 =(150 pm 2)Omega are connected inseries. What is their equivalent resistance?

Two resistors of resistances R_(1) = 150 pm 2 Ohm and R_(2) = 220 pm 6 Ohm are connected in parallel combination. Calculate the equivalent resistance. Hint: (1)/(R') = (1)/(R_(1)) + (1)/(R_(2))

When two 2Omega resistors are connected in series, the effective resistance is . . . . . . . .. .

(a) Given n resistores each of resistance R. how will you combine them to get the (i) maximum (ii) minimum effective resistance? (b) Given the resistances of 1 Omega, 2 Omega, 3 Omega. how will be combine them to get an equivalent resistance of (i) (11//3) Omega (ii) (11//5) Omega, (iii) 6 Omega, (iv) (6//11) Omega ? (c ) Determine the equivalent resistance of networks shown in

A uniform wire of resistance (50 Omega) is cut into 5 equal parts. These parts are now connected in parallel.the Equivalent resistance of the combination is

(a)Three resistors 1 Omega ,2 Omega and 3 Omega are combined in series. What is the total resis- tance of the combination? (b). If the combination is connected to a battery of emf 12 V and negligible internal resistance, obtain the potential drop across each resistor.

When 'n' number of resistors of equal resistance R connected in series, the equivalent resistance is R_(p)=(R )/(n)

n resistances, each of r Omega , when connected in parallel give an equivalent resistance of R Omega . If these resistances were connected in series, the combination would have a resistance in homs equal to