200 `Omega` resistance and 1H inductance are connected in series with an A.C. circuit. The frequency of the source is `(200)/(2pi)` Hz. Then phase difference in between V and I will be-

A coil of resistance 200 ohms and self inductance 1.0 henry has been connected in series to an a.c. source of frequency 200/pi Hz . The phase difference between voltage and current is

A coil of resistance 200 ohms and self inductance 1.0 henry has been connected in series to an a.c. source of frequency 200/pi Hz . The phase difference between voltage and current is

A coil of self inductance of 1H and resistance 200 Omega is connected to an A.C. source of frequency 200/pi Hz. The phase difference between voltage and current will be ...

A 200 Omega resistor and 1H inductor are joined in series with an ac source of emf 10 sqrt(2) sin (200t)V . Calculate the phases difference between emf and current.

A 200 Omega resistor and 1H inductor are joined in series with an ac source of emf 10 sqrt(2) sin (200t)V . Calculate the phases difference between emf and current.

In an L-R circuit, an inductance of 0.1 H and a resistance of 1 Omega are connected in series with an ac source of voltage V = 5 sin 10 t. The phase difference between the current and applied voltage will be

In an L-R circuit, an inductance of 0.1 H and a resistance of 1 Omega are connected in series with an ac source of voltage V = 5 sin 10 t. The phase difference between the current and applied voltage will be

A coil of 200Omega resistance and 1.0H inductance is conneted to an AC source of frequency 200//2pi Hz . Phase angle between potential and current will be