A circuit consists of a `2 mu F` capacitor connected through an a.c.ammeter to an a.c. source of voltage given by
`V=200sqrt(2)sin(100t+pi/3)` Where V is in volts and t in seconds.The reading of the ammeter is

A 30 mu F capacitor, 0.2 H inductor and a 50 Omega resistor are connected in series to an a.c. Source whose emf is given by E = 310 sin (314 t) where E is in volt and t is in second. Calculate : The impedance of the circuit and

A 5mu F capacitor is connected to a 200 V, 100 Hz ac source. The capacitive reactance is

An alternating voltage E=200sqrt(2)sin(100t) is connected to a 1 microfarad capacitor through an AC ammeter. The reading of the ammeter shall be

An alternating voltage E=200sqrt(2)sin(100t) is connected to a 1 microfarad capacitor through an AC ammeter. The reading of the ammeter shall be

A capacitor of capacitance 10muF is connected to an AC source and an AC Ammeter. If the source voltage varies as V=50sqrt(2)sin100t , the reading of the ammeter is

An alternating voltage given by V=300sqrt2sin (50t) (in volts) is connected across a 1muF capacitor through an AC ammeter. The reading of the ammeter will be

A 20 mu F capacitor, 0.2 H inductor and a 50 Omega resistor are connected in series to an a.c. Source whose emf is given by E = 310 sin (314 t) where E is in volt and t is in second. Calculate : peak value of current in the circuit.

An AC voltage of V=220sqrt2 sin (100pit+(pi)/(2))V is applied across a DC votlmeter, its reading will be

A 10muF capactor is connected withan ac source E=200sqrt2 sin (100 t)V through an ac ammeter (it reads rms value). What will be the reading of the ammeter?

A 10 muF capacitor, an inductor and a resistor of 100Omega are connected to an alternating source of emf 200sqrt2 sin 100t as shown in the figure. What is the r.m.s current in the circuit and the value of the inductance if the current and the source voltage attain their maxima simultaneously? What is the average power consumed in this case