Three masses m, 2m and 3m are moving in x-y plane with speed 3u, 2u and u respectively as shown in figure. The three masses collide at the same point at P and stick together. The velocity of resulting mass will be: |
[JEE ONLINE 12-04-2014] |
A) \[\frac{u}{12}\left( \hat{i}+\sqrt{3}\hat{j} \right)\]
B) \[\frac{u}{12}\left( \hat{i}-\sqrt{3}\hat{j} \right)\]
C) \[\frac{u}{12}\left( -\hat{i}+\sqrt{3}\hat{j} \right)\]
D) \[\frac{u}{12}\left( -\hat{i}-\sqrt{3}\hat{j} \right)\]
Correct Answer: D
Solution :
[d] From the law of conservation of momentum we know that, |
\[{{m}_{1}}{{u}_{1}}+{{m}_{2}}{{u}_{2}}+....={{m}_{1}}{{v}_{1}}+{{m}_{2}}{{v}_{2}}+....\] |
Given \[{{m}_{1}}=m,{{m}_{2}}=2m\]and\[{{m}_{3}}=3m\] |
and\[{{u}_{1}}=3u,{{u}_{2}}=2u\]and\[{{u}_{3}}=u\] |
Let the velocity when they stick \[=\vec{v}\] |
Then, according to question, |
\[m\times 3u\left( {\hat{i}} \right)+2m\times 2u\left( -\hat{i}\cos {{60}^{o}}-\hat{j}\sin {{60}^{o}} \right)\] |
\[+3m\times u\left( -\hat{i}\cos {{60}^{o}}+\hat{j}\sin {{60}^{o}} \right)=m(m+2m+3m)\vec{v}\]\[\Rightarrow \]\[3mu\hat{i}-4mu\frac{{\hat{i}}}{2}-4mu\left( \frac{\sqrt{3}}{2}\hat{j} \right)-3mu\frac{{\hat{i}}}{2}\] |
\[+3mu\left( \frac{\sqrt{3}}{2}\hat{j} \right)=6m\vec{v}\] |
\[\Rightarrow \]\[mu\hat{i}-\frac{3}{2}mu\hat{i}-\frac{\sqrt{3}}{2}mu\hat{j}=6m\vec{v}\] |
\[\Rightarrow \]\[-\frac{1}{2}mu\hat{i}-\frac{\sqrt{3}}{2}mu\hat{j}=6m\vec{v}\] |
\[\Rightarrow \]\[\vec{v}=\frac{u}{12}\left( -\hat{i}-\sqrt{3}j \right)\] |
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