In the adjacent circuit, the instantaneous current equation is

In the given A.C. circuit, the instantaneous current through inductor and capacitor are 0.8 A and 0.4 A repectively. The instantaneous current through resistor is

In an AC series circuit, the instanctaneous current is zero when the instantaneous voltage is xamimum. Connected to the source may be a

In an ac circuit the instantaneous values of current and applied voltage are respectively i=2(Amp) sin (250pis^(-1)t and epsi =(10V) sin [(250pis^(-1))t+(pi)/(3) , Find the instantaneous power drawn from the source at t=(2)/(3)ms and its average value.

In an ac circuit the instantaneous values of current and applied voltage are respectively i=2(Amp) sin (250pis^(-1)t and epsi =(10V) sin [(250pis^(-1))t+(pi)/(3) , Find the instantaneous power drawn from the source at t=(2)/(3)ms and its average value.

In an a.c. circuit, the instantaneous e.m.f. and current are given by e = 100 sin 30 t i = 20 sin( 30t-(pi)/(4)) In one cycle of a.c., the average power consumed by the circuit and the wattless current are, respectively :

In an a.c. circuit, the instantaneous e.m.f. and current are given by e = 100 sin 30 t i = 20 sin( 30t-(pi)/(4)) In one cycle of a.c., the average power consumed by the circuit and the wattless current are, respectively :

The circuit shown in the figure is a series LCR circuit connected to an AC source. This circuit has many important applications in practical electronic systems. In the given circuit, L = 20 mH and frequency of applied alternating potential difference is omega = 8000 rad//s . Initial phase of applied potential difference has such a minimum value that initial value of instantaneous potential difference is half of is peak value while initial phase of current in the circuit has such a minimum value that initial value of instantaneous current equals its peak value. We also observe that current in the circuit leads the net voltage across the circuit. It is given that peak values of potential difference across R and L are I V_(R)( peak))= 25 V V(L)_(peak)= 20 V Instantaneous current in the circuit is

The circuit shown in the figure is a series LCR circuit connected to an AC source. This circuit has many important applications in practical electronic systems. In the given circuit, L = 20 mH and frequency of applied alternating potential difference is omega = 8000 rad//s . Initial phase of applied potential difference has such a minimum value that initial value of instantaneous potential difference is half of is peak value while initial phase of current in the circuit has such a minimum value that initial value of instantaneous current equals its peak value. We also observe that current in the circuit leads the net voltage across the circuit. It is given that peak values of potential difference across R and L are I V_(R)( peak))= 25 V V(L)_(peak)= 20 V Instantaneous value of potential difference applied

The circuit shown in the figure is a series LCR circuit connected to an AC source. This circuit has many important applications in practical electronic systems. In the given circuit, L = 20 mH and frequency of applied alternating potential difference is omega = 8000 rad//s . Initial phase of applied potential difference has such a minimum value that initial value of instantaneous potential difference is half of is peak value while initial phase of current in the circuit has such a minimum value that initial value of instantaneous current equals its peak value. We also observe that current in the circuit leads the net voltage across the circuit. It is given that peak values of potential difference across R and L are I V_(R)( peak))= 25 V V(L)_(peak)= 20 V Instantaneous potential difference across the inductor can be expressed as

The circuit shown in the figure is a series LCR circuit connected to an AC source. This circuit has many important applications in practical electronic systems. In the given circuit, L = 20 mH and frequency of applied alternating potential difference is omega = 8000 rad//s . Initial phase of applied potential difference has such a minimum value that initial value of instantaneous potential difference is half of is peak value while initial phase of current in the circuit has such a minimum value that initial value of instantaneous current equals its peak value. We also observe that current in the circuit leads the net voltage across the circuit. It is given that peak values of potential difference across R and L are I V_(R)( peak))= 25 V V(L)_(peak)= 20 V Value of instantaneous potential differenc across resistance R is