MHT CET · Physics · Rotational Motion
Match the following columns \((\mathrm{R}=\) radius, \(\mathrm{k}=\) Radius of gyration \()\)
- A \((\mathrm{A})-(\mathrm{p}) ;(\mathrm{B})-(\mathrm{R}) ;(\mathrm{C})-(\mathrm{Q}) ;(\mathrm{D})-(\mathrm{s})\)
- B \((\mathrm{A})-(\mathrm{p}) ;(\mathrm{B})-(\mathrm{Q}) ;(\mathrm{C})-(\mathrm{s}) ;(\mathrm{D})-(\mathrm{P})\)
- C \((\mathrm{A})-(\mathrm{Q}) ;(\mathrm{B})-(\mathrm{R}) ;(\mathrm{C})-(\mathrm{p}) ;(\mathrm{D})-(\mathrm{S})\)
- D \((\mathrm{A})-(\mathrm{R}) ;(\mathrm{B})-(\mathrm{P}) ;(\mathrm{C})-(\mathrm{S}) ;(\mathrm{D})-(\mathrm{Q})\)
Answer & Solution
Correct Answer
(D) \((\mathrm{A})-(\mathrm{R}) ;(\mathrm{B})-(\mathrm{P}) ;(\mathrm{C})-(\mathrm{S}) ;(\mathrm{D})-(\mathrm{Q})\)
Step-by-step Solution
Detailed explanation
Relationship between radius of gyration and the moment of inertia about an axis is as follows:
\(\mathrm{I}=\mathrm{mk}^2\)
Summary for the different cases is listed below:
\(\mathrm{I}=\mathrm{mk}^2\)
Summary for the different cases is listed below:
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