Two particles, one with constant velocity 50m s−1 and the other with uniform acceleration 10m s−2, start moving simultaneously from the same place in the same direction. They will be at a distance of 125 m from each other after
A
3s
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B
5(1+√2)s
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C
10s
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D
10(√2+1)s
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Solution
The correct option is B5(1+√2)s For particle 1 moving with constant velocity, S1=50t……(i)
For particle 2 moving with constant acceleration, S2=12at2=12×10t2=5t2……(ii)
As per question: S2−S1=125, we get
From equations (i) and (ii) 5t2−50t=125 ⇒t2−10t−25=0
On solving we get t=(5±5√2)s ∴t=5(1+√2)s (taking positive value)
Alternate sol:
Given displacement of particle 1 w.r.t. 2 S12=−125m
Initial velocity of 1 w.r.t 2 u12=50−0=50ms−1
Acceleration of 1 w.r.t. 2 a12=0−10=−10m/s2
Using second equation of motion, S12=u12t+12a12t2 −125=50t+12×(−10)t2 ⇒t2−10t−25=0 ⇒t=5(1+√2) or t=5(1−√2)sec
Taking +ve value t=5(1+√2)s