A) \[32{}^\circ \]
B) \[48{}^\circ \]
C) \[76{}^\circ \]
D) \[84{}^\circ \]
Correct Answer: C
Solution :
Key Idea: Vertical component of velocity at the highest point is zero. Let body is projected with an initial velocity u making an angle 6 with the horizontal. The vertical velocity at 0 is zero. From \[{{v}^{2}}={{u}^{2}}-2gh\] \[v={{v}_{y}}=0\]and \[u={{u}_{y}}=u\text{ }sin\,\theta \] \[0={{(u\sin \theta )}^{2}}-2gH\] \[\Rightarrow \] \[H=\frac{{{u}^{2}}{{\sin }^{2}}\theta }{2g}\] Also, range = horizontal velocity\[\times \]time of flight \[R={{u}_{x}}\times T=(u\cos \theta )\times \frac{2u\sin 2\theta }{g}\] \[R=\frac{{{u}^{2}}\sin 2\theta }{g}\] Given, \[H=R\] \[\therefore \] \[\frac{{{u}^{2}}{{\sin }^{2}}\theta }{2g}=\frac{{{u}^{2}}\sin 2\theta }{g}\] \[\frac{{{\sin }^{2}}\theta }{\cos \theta }=4\] \[\Rightarrow \] \[\tan \theta =4\] \[\therefore \] \[\theta ={{\tan }^{-1}}(4),\theta \approx {{76}^{o}}\]You need to login to perform this action.
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