A) \[~\text{2s}\]
B) \[\text{3 s}\]
C) \[\text{1}.\text{5s}\]
D) 4s
Correct Answer: B
Solution :
Retardation, \[a=\frac{-g\sin \theta }{1+\frac{I}{m{{R}^{2}}}}\] Let the cylinder be solid then\[I=\frac{1}{2}n{{R}^{2}}\] \[a=\frac{-g\sin \theta }{1+\frac{1}{2}}=\frac{-2}{3}\times 9.8\times \frac{1}{2}\Rightarrow a=\frac{-9.8}{3}m/{{s}^{2}}\] Using the relation, \[{{v}^{2}}-{{u}^{2}}=2as,\]we get \[s=\frac{{{v}^{2}}-{{u}^{2}}}{2a}\Rightarrow s=\frac{0-{{5}^{2}}}{2\left( -\frac{9.8}{3} \right)}\Rightarrow s=3.83m\] Let T be the time taken by the cylinder to return to the bottom, T = 2t, where, t = time of ascending or descending. Here, initial velocity = 0 Using the relation, \[s=ut+\frac{1}{2}a{{t}^{2}}\], we get \[t=\sqrt{\frac{2s}{a}}=\sqrt{\frac{2\times 3.83}{\left( \frac{9.8}{3} \right)}}=1.53s\] \[T=2\times 1.53=3.06s\approx 3.0s\]You need to login to perform this action.
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