In an AC series `L-C-R` circuit, applied voltage is
`V= (100sqrt(2)sin(omegat+45^(@)))`V
Given that, `R= 30Omega`, `X_(L) = 50Omega` and `X_(C) = 10 Omega` Now match the following two columns.

In a given series LCR circuit R=4Omega, X_(L)=5Omega and X_(C)=8Omega , the current

In an L-C-R series circuit R = 10Omega, X_(L) = 8Omega and X_(C) = 6Omega the total impedance of the circuit is -

In an AC series circuit, R = 10 Omega, X_L=20Omega and XC=10Omega .Then, choose the correct options

In an AC, series L-C-R circuit, R=X_(L)=X_(C) and applied AC, voltage is V. Then match the following two columns.

In a series L-C-R circuit X_(L)350 Omega, X_(C)=200 Omega and R = 150 Omega .

In series LCR circuit 3 = Omega X_(L) = 8 Omega, X_(C) = 4 Omega , the impendance of the circuit is:

Match the following two columns for L-C-R series AC circuit.

In a series L-C circuit, the applied voltage is V_0. if omega is very low, then the voltage drop across the inductor V_L and capacitor V_C are .

In the circuit diagram show, X_(C)=100Omega, X_(L)=200Omega,& R=100Omega

An alternating voltage V = 100 sin omega t is applied across an LCR circuit as shown. At the instant when voltage drop across source is 50 sqrt(3) volts then at that instant R = 30 Omega" "X_(L ) = 60 Omega" "X_(C ) = 20 Omega