(a) A condenser of capacity 10 µF, an inductance of 0.2 mH and a resistance of 600 Q are joinedin series. (i) Which type of oscillation it is? (ii) What is the damping frequency, if any? and (iii)What is its resonant frequency, if any? (iv) What is its life time?3.(b) A series-connected circuit with R = 4 2 and L = 25 mH is connected with a capacitor which isrun by a FHM V=Vm sin(wt + 45°). (i) Calculate the value of C that will produce a quality factorof 50; (ii) Find w1, w2, and B; and (iii) Determine the power dissipated at w = wo. Take Vm= 100V.

As two independent questions are asked, according to policies, first 3 sub questions of first main…

(a) A condenser of capacity 10 µF, an inductance of 0.2 mH and a resistance of 600 Q are joined in series. (i) Which type of oscillation it is? (ii) What is the damping frequency, if any? and (iii) What is its resonant frequency, if any? (iv) What is its life time?

(a) A condenser of capacity 10 µF, an inductance of 0.2 mH and a resistance of 600 Q are joined in series. (i) Which type of oscillation it is? (ii) What is the damping frequency, if any? and (iii) What is its resonant frequency, if any? (iv) What is its life time?

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Question

(a) A condenser of capacity 10 µF, an inductance of 0.2 mH and a resistance of 600 Q are joined
in series. (i) Which type of oscillation it is? (ii) What is the damping frequency, if any? and (iii)
What is its resonant frequency, if any? (iv) What is its life time?
3.
(b) A series-connected circuit with R = 4 2 and L = 25 mH is connected with a capacitor which is
run by a FHM V=Vm sin(wt + 45°). (i) Calculate the value of C that will produce a quality factor
of 50; (ii) Find w1, w2, and B; and (iii) Determine the power dissipated at w = wo. Take Vm
= 100
V.

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