Home
Class 12
PHYSICS
An A.C. generator generating an e.m.f. o...

An A.C. generator generating an e.m.f. of `epsi= 300 sin (100 pi t)V` is connected to a series combination of `16mu F` capacitor, 1H inductor and `100Omega` resistor. Calculate
Power factor at resonant frequency `f_(o)`

Text Solution

AI Generated Solution

To solve the problem, we need to calculate the power factor at the resonant frequency for the given AC circuit. The circuit consists of a resistor (R), an inductor (L), and a capacitor (C) connected in series. ### Step-by-step Solution: 1. **Identify the given values:** - EMF of the generator: \( \epsilon = 300 \sin(100 \pi t) \) V - Capacitance, \( C = 16 \mu F = 16 \times 10^{-6} F \) - Inductance, \( L = 1 H \) ...
Promotional Banner

Similar Questions

Explore conceptually related problems

An A.C. generator generating an e.m.f. of epsi= 300 sin (100 pi t)V is connected to a series combination of 16mu F capacitor, 1H inductor and 100Omega resistor. Calculate Resonant frequency f_(o)

An A.C. generator generating an e.m.f. of epsi= 300 sin (100 pi t)V is connected to a series combination of 16mu F capacitor, 1H inductor and 100Omega resistor. Calculate Impedance of the circuit at the given frequency

An A.C. generator generating an emf E given by E = 311 sin(10t) is connected to a 44 Omega resistor. Calculate : (i) rms value of A.C. flowing through the resistor. (ii) frequency of the current (iii)mean value of emf generated by the generator in time interval 0.06 to 0.08s.

An a.c., source of emf epsi= 200 sin omega t is connected to a resistor of 50Omega . Calculate: Average current (I_(avg))

An a.c., source of emf epsi= 200 sin omega t is connected to a resistor of 50Omega . Calculate: Root mean square (rms) value of emf

In an AC circuit , an alternating voltage e = 200√2 sin 100t V is connected to a capacitor of capacity 1mu F . The rms value of the current in the circuit is

An a.c. voltage of (V = 100 sin omega t) volt is connected across the parallel combination of inductor and capacitor having ( X_L = 5 Omega) and (X_C = 10 Omega) then current supplied by source is (in ampere)

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

In an ac circuit , an alternating voltage e = 200 sqrt2 sin 100 t volts is connected to a capacitor of capacitance 1 mu F . The rms value of the current in the circuit is :

Calculate the back e.m.f of a 10H, 200 Omega coil 100 ms after a 100Vdc supply is connected to it.