(B) Given, capacitance, $C = 10^{-6} \,F$.Inductance, $L = 10^{-4} \,H$.The frequency of electrical oscillations in an $L-C$ circuit is given by the f

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(B) Given, capacitance, $C = 10^{-6} \,F$.Inductance, $L = 10^{-4} \,H$.The frequency of electrical oscillations in an $L-C$ circuit is given by the formula:$f = \frac{1}{2 \pi \sqrt{LC}}$Substituting the values:$f = \frac{1}{2 \pi \sqrt{10^{-4} \times 10^{-6}}}$$f = \frac{1}{2 \pi \sqrt{10^{-10}}}$$f = \frac{1}{2 \pi \times 10^{-5}}$$f = \frac{10^5}{2 \pi} \,Hz$

Class 12 Physics Alternating Current LC Oscillations

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$A$ series resonant $AC$ circuit contains a capacitance $10^{-6} \,F$ and an inductor of $10^{-4} \,H$. The frequency of electrical oscillations will be

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A
$10 \,Hz$
B
$\frac{10^5}{2 \pi} \,Hz$
C
$\frac{10}{2 \pi} \,Hz$
D
$10^5 \,Hz$

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Alternating Current

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LC Oscillations

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What are $LC$ oscillations?

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The charge of the capacitor in an $LC$ oscillatory circuit,when the energy associated with the inductor and capacitor are equal,is . . . . . . . ($Q_{0}$ is the initial charge on the capacitor.)

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$A$ tuned circuit of a transistor oscillator unit has an inductance of $5 mH$ and a capacitance of $5 pF$. The natural frequency of the oscillator is

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$A$ capacitor of capacitance $C$ is charged to a potential $V_1$. It is then connected to an ideal inductor of inductance $L$. When the potential across the capacitor drops to $V_2$,what is the current flowing through the inductor?

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If a $LC$ circuit is considered analogous to a harmonically oscillating spring-block system,which energy of the $LC$ circuit would be analogous to potential energy and which one analogous to kinetic energy?

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$A$ series resonant $AC$ circuit contains a capacitance $10^{-6} \,F$ and an inductor of $10^{-4} \,H$. The frequency of electrical oscillations will be

Similar Questions

What are $LC$ oscillations?

The charge of the capacitor in an $LC$ oscillatory circuit,when the energy associated with the inductor and capacitor are equal,is . . . . . . . ($Q_{0}$ is the initial charge on the capacitor.)

$A$ tuned circuit of a transistor oscillator unit has an inductance of $5 mH$ and a capacitance of $5 pF$. The natural frequency of the oscillator is

$A$ capacitor of capacitance $C$ is charged to a potential $V_1$. It is then connected to an ideal inductor of inductance $L$. When the potential across the capacitor drops to $V_2$,what is the current flowing through the inductor?

If a $LC$ circuit is considered analogous to a harmonically oscillating spring-block system,which energy of the $LC$ circuit would be analogous to potential energy and which one analogous to kinetic energy?

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