(C) The frequency of an $LC$ circuit is given by $f = \frac{1}{2\pi \sqrt{LC}}$.The time period $T$ of $LC$ circuit oscillations is given by the formu

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(C) The frequency of an $LC$ circuit is given by $f = \frac{1}{2\pi \sqrt{LC}}$.The time period $T$ of $LC$ circuit oscillations is given by the formula $T = 2\pi \sqrt{LC}$.Since $2\pi$ is a dimensionless constant,the dimensions of $\sqrt{LC}$ must be the same as the dimensions of the time period $T$.Therefore,the dimension of $\sqrt{LC}$ is Time $([T])$.

Class 12 Physics Alternating Current LC Oscillations

Easy

The square root of the product of inductance $(L)$ and capacitance $(C)$ has the dimension of:

A
Length
B
Mass
C
Time
D
No dimension

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Alternating Current

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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.)

EasyGUJCET 2023

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If maximum energy is stored in the capacitor at $t = 0$,find the time after which the current in the circuit will be maximum. Given $L = 25 \, mH$ and $C = 10 \, \mu F$.

MediumAIIMS 2019

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Compare $LC$ oscillations and forced damped oscillations in mechanics.

Medium

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The circuit shown contains an inductor $L$,a capacitor $C$ with an initial charge $CE$,and a battery of $EMF$ $2E$. Find the maximum charge on the capacitor after the switch is closed at $t = 0$.

Difficult

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In an oscillating $LC$-circuit,$L = 3 \ mH$ and $C = 2.7 \ \mu F$. At $t = 0$,the charge on the capacitor is zero and the current is $2 \ A$. The maximum charge that will appear on the capacitor will be

MediumKCET 2021

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The square root of the product of inductance $(L)$ and capacitance $(C)$ has the dimension of:

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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.)

If maximum energy is stored in the capacitor at $t = 0$,find the time after which the current in the circuit will be maximum. Given $L = 25 \, mH$ and $C = 10 \, \mu F$.

Compare $LC$ oscillations and forced damped oscillations in mechanics.

The circuit shown contains an inductor $L$,a capacitor $C$ with an initial charge $CE$,and a battery of $EMF$ $2E$. Find the maximum charge on the capacitor after the switch is closed at $t = 0$.

In an oscillating $LC$-circuit,$L = 3 \ mH$ and $C = 2.7 \ \mu F$. At $t = 0$,the charge on the capacitor is zero and the current is $2 \ A$. The maximum charge that will appear on the capacitor will be

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