Match List I with List II List I List II A. Spring constant I. (T-1) B. Angular speed II. (MT-2) C. Angular momentum III. (ML2) D. Moment of Inertia IV. (ML2T-1) List I List II A Spring constant I (T-1) B Angular speed II (MT-2) C Angular momentum III (ML2) D Moment of Inertia IV (ML2T-1)
Choose the correct answer from the options given below:
| List I | List II | ||
| A | Spring constant | I | (T-1) |
| B | Angular speed | II | (MT-2) |
| C | Angular momentum | III | (ML2) |
| D | Moment of Inertia | IV | (ML2T-1) |
- A-I, B-III, C-II, D-IV
- A-II, B-I, C-IV, D-III
- A-IV, B-I, C-III, D-II
- A-II, B-III, C-I, D-IV
The Correct Option is B
Solution and Explanation
Solution:
Spring constant:
The spring constant \( K \) is given by:
\[
[K] = \frac{[F]}{[x]} = \frac{MLT^{-2}}{L} = MT^{-2}
\]
Thus, spring constant has units of \( \boxed{MT^{-2}} \), which corresponds to List II.
Angular speed:
The angular speed \( \omega \) has dimensions:
\[
[\omega] = \frac{[\theta]}{[t]} = \frac{1}{T} = T^{-1}
\]
Thus, angular speed has dimensions \( \boxed{T^{-1}} \), corresponding to List I.
Angular momentum:
Angular momentum \( L \) is given by:
\[
[L] = [M][L][V] = ML^2T^{-1}
\]
Thus, Angular momentum has dimensions \( \boxed{ML^2T^{-1}} \), corresponding to List III.
Moment of inertia:
The moment of inertia \( I \) is:
\[
[I] = [M][L]^2 = ML^2
\]
Thus, moment of inertia has dimensions \( \boxed{ML^2} \), corresponding to List IV.
Thus, the correct match is \( A-II, B-I, C-III, D-IV \).
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