A) \[\frac{d}{\sqrt{3}}\]
B) \[\frac{d}{2}\]
C) \[\frac{d}{\sqrt{2}}\]
D) \[d\]
Correct Answer: B
Solution :
Let the car turn of the highway at a distance 'x' from the point \[M.So,\] \[RM=x\] And if speed of car in field is \[v\], then time taken by the car to cover the distance \[QR=QM-x\]on the highway, \[{{t}_{1}}=\frac{QM-x}{2v}.....(1)\] the time taken to travel the distance 'RP' in the field \[{{t}_{2}}=\frac{\sqrt{{{d}^{2}}+{{x}^{2}}}}{v}\]...(2) So, the total time elapsed to move the car from\[Q\] to \[P\] \[t={{t}_{1}}+{{t}_{2}}=\frac{QM-x}{2v}+\frac{\sqrt{{{d}^{2}}+{{x}^{2}}}}{v}\] for \['t'\] to be minimum \[\frac{dt}{dx}=0\] \[\frac{1}{v}\left[ -\frac{1}{2}+\frac{x}{\sqrt{{{d}^{2}}+{{x}^{2}}}} \right]=0\] Or \[x=\frac{d}{\sqrt{{{2}^{2}}-1}}=\frac{d}{\sqrt{3}}\]You need to login to perform this action.
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