For the circuit shown E=50 V `R_(1)=10 Omega , R_(2)= 20 Omega, R_(3) = 30 Omega` L = 2.0 mH . The current through `R_(1)` and `R_(2)` are ________ . immediate after the switch is closed.

In the circuit shown below E_(1) = 4.0 V, R_(1) = 2 Omega, E_(2) = 6.0 V, R_(2) = 4 Omega and R_(3) = 2 Omega . The current I_(1) is

In the circuit shows in Fig E = 15 V , R_(1) = 1Omega , R_(2) = 1 Omega , R_(3) = 2Omega , and L = 1.5 H . The currents flowing through R_(1),R_(2) ,and R_(3) are i_(1),i_(2) , and i_(3) , respectively. Immediately after tuning switch S on,

In the circuit shows in Fig E = 15 V , R_(1) = 1Omega , R_(2) = 1 Omega , R_(3) = 2Omega , and L = 1.5 H . The currents flowing through R_(1),R_(2) ,and R_(3) are i_(1),i_(2) , and i_(3) , respectively. Immediately after connecting switch S ,

For the ciruit shown in figure E=50V , R_1=10Omega, R_2=20Omega, R_3=30Omega and L=2.0 mH . Find the total current a. Immediately after switch S is closed b. A long time after S is closed. c. Immediaately after S is reopened d. A long time after S is reopened.

In the circuit shown, E_(1)= 7 V, E_(2) = 7 V, R_(1) = R_(2) = 1Omega and R_(3) = 3 Omega respectively. The current through the resistance R_(3)

In the circuit shown, E_(1)= 7 V, E_(2) = 7 V, R_(1) = R_(2) = 1Omega and R_(3) = 3 Omega respectively. The current through the resistance R_(3)

In the following circuit , E_1 = 4V, R_1 = 2 Omega, E_2 = 6 V, R_2 = 2Omega, and R_3 = 4Omega. Find the currents i_1 and i_2

In figure, xi=100 V,R_(1)=10 Omega,R_(2)=20 Omega, R_(3)=30 Omega and L= 2H . Find i_(1) & i_(2) (a)imeediately after switch S_(w) is closed (b)a long time after ( c)immediately after S_(w) is opended again (d)a long time later.

In the circuit shows in Fig. , E = 10 V , R_(1) = 5 Omega , R_(2) = 10 Omega , and L = 5 H . For the two separate conditions, (i) switch S is just closed and (ii) switch S is closed for a long time, calculate a. current i_(1) through R_(1) , b. current i_(2) through R_(2) , c. current i through the switchs, d. the potential difference across R_(2) , e. the potential difference across L , f. di_(2)//dt .

In the circuit shown in fig. R_(1) = 10 Omega, R_(2) = 5 Omega, C_(1) = 1 muF, C_(2) = 2muF, and E =6V. Calculate the charge on each capactor in the stedy state.