The dimension of L//C is equivalent to t...

The dimension of `L//C` is equivalent to that of (`L to` inductance, `C to`capacitance)

`omega^(2)`, `omega-=`angular frequency.

`L^(2)`, `L-=`inductance

`R^(2)`, `R-=` resistance.

none of these

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To solve the problem of finding the dimension of \( \frac{L}{C} \) where \( L \) is inductance and \( C \) is capacitance, we can follow these steps: ### Step 1: Understand the dimensions of inductance and capacitance - The dimension of inductance \( L \) is given by: \[ [L] = [M][L^2][T^{-2}] \] where \( M \) is mass, \( L \) is length, and \( T \) is time. ...

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