What will be the approximate resistance offered by a capacitor of 10`mu`F and frequency 100Hz?
A.`160 Omega` B.`1600 Omega` C.`16 Omega` D.None of these

Judge the equivalent resistance when the following are connected in parallel. (a) 1 Omega and 10^6 Omega (b) 1 Omega and 10^8 Omega and 10^6 Omega .

(a) Given n resistors each of resistance R . How will you combine them to get the (i) maximum (ii) minimum effective resistance ? What is the ratio of the maximum to minimum resistance ? (b) Given the resistances of 1 Omega, 2 Omega, 3 Omega , how will you combine them to get an equivalent resistance of (i) (11//3)Omega (ii) (11//5)Omega (iii) 6 Omega (iv) (6//11) Omega ? (c) Determine the equivalent resistance of networks shown in Figure.

What is : (a) the highest (b) the lowest total resistances that can be obtained by combinations of four coils of resistances 4 Omega,8 Omega,12 Omega,24 Omega ?

In a platinum resistance thermometer resitance of the platinum wire at 0^(@)C, 100^(@) C and in hot bath are 8 Omega , 12 Omega and 11 Omega respectively. Temperature of hot bath is

In an RC series circuit the rms voltage of source is 200V and its frequency is 50 Hz, if R=100 Omega and C=(100)/(pi) (mu)F , find (a) impedance of the circuit. (b) power factor angle, (c ) power factor, (d) current, (e) maximum current

(a) What is the reactance of a 2.00 H inductor at a frequency of 50.0 Hz ? (b) What is the inductance of an inductor whose reactance is 2.00 Omega at 50.0 Hz ? (c) What is the reactance of a 2.00 muF capacitor at a frequency of 50.0 Hz ? (d) What is the capacitance of a capacitor whose reactance is 2.00 Omega at 50.0 Hz ?

The heat generated through 4 Omega and 9 Omega resistances separately , when a capacitor pf 100 my F capacity charged to 200 V is discharged one by one , will be

A circuit containing a 20 Omega resistor and 0.1 mu F capacitor in series is connected to 320 V ac supply of angular frequency 100 " rad " s^(-1) . The impedance of the circuit is

A tube light of 60 V, 60 W rating is connected across an AC source of 100 V and 50 Hz frequency. Then,

A battery of EMF 10 V, with internal resistance 1 Omega is being charged by a 120 V d.c. supply using a series resistance of 10 Omega . The terminal voltage of the battery is