A particle is moving along the straight line OX and its distance x is in metres from O after t seconds from start is given by x = t^3 – t^2 – 5t. What will be the distance traversed before it comes to rest?(a) -173/27(b) 173/27(c) -175/27(d) 175/27I got this question during an interview.This interesting question is from Calculus Application in division Application of Calculus of Mathematics – Class 12

A particle is moving along the straight line OX and its distance x is

1.	A particle is moving along the straight line OX and its distance x is in metres from O after t seconds from start is given by x = t^3 – t^2 – 5t. What will be the distance traversed before it comes to rest?(a) -173/27(b) 173/27(c) -175/27(d) 175/27I got this question during an interview.This interesting question is from Calculus Application in division Application of Calculus of Mathematics – Class 12
Answer» Correct choice is (c) -175/27 Explanation: We have, x = t^3 – t^2 – 5t ……….(1) When x = 28, then from (1) we get, t^3 – t^2 – 5t = 28 Or t^3 – t^2 – 5t – 28 = 0 Or (t – 4)(t^2 + 3T + 7) = 0 Thus, t = 4 Let v and f be the velocity and acceleration respectively of the particle at time t SECONDS. Then, v = dx/DT = d(t^3 – t^2 – 5t)/dt = 3t^2 – 2t – 5 And f = dv/dt = d(3t^2 – 2t – 5)/dt = 6t – 2 Again the particle comes to rest when v = 0 Or 3t^2 – 2t – 5 = 0 Or (3t – 5)(t + 1) = 0 Or t = 5/3, -1 As, t > 0, so, t = 5/3 Therefore, the DISTANCE traversed by the particle before it comes to rest = [(5/3)^3 – (5/3)^2 – 5(5/3)] m[putting t = 5/3 in (1)] = -175/27

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