A particle is moving in a straight line and its distance s cm from a fixed point in the line after t seconds is given by s = 12t – 15t^2 + 4t^3. What will be the distance between the two positions of the particle at two times, when the velocity is instantaneously 0?(a) 27/4 cm(b) 29/4 cm(c) 27/2 cm(d) 29/2 cmI have been asked this question at a job interview.The above asked question is from Calculus Application topic in division Application of Calculus of Mathematics – Class 12

A particle is moving in a straight line and its distance s cm from a f

1.	A particle is moving in a straight line and its distance s cm from a fixed point in the line after t seconds is given by s = 12t – 15t^2 + 4t^3. What will be the distance between the two positions of the particle at two times, when the velocity is instantaneously 0?(a) 27/4 cm(b) 29/4 cm(c) 27/2 cm(d) 29/2 cmI have been asked this question at a job interview.The above asked question is from Calculus Application topic in division Application of Calculus of Mathematics – Class 12
Answer» Correct answer is (a) 27/4 cm The best I can EXPLAIN: We have, s = 12t – 15t^2 + 4t^3 ……….(1) Differentiating both side of (1) with respect to t we get, (ds/dt) = 12 – 30t + 12t^2 Clearly, the VELOCITY is instantaneously zero, when (ds/dt) = 12 – 30t + 12t^2 = 0 Or 12 – 30t + 12t^2 = 0 Or (2t – 1)(t – 2) = 0 Thus, t = 2 or t = ½ Putting the value t = 2 and t = ½ in (1), We get, when t = 2 then s = (s1) = 12(2) – 15(2)^2 + 4(2)^3 = -4. When t = ½ we get, s = (s2) = 12(1/2) – 15(1/2)^2 + 4(1/2)^3 = 11/4. Thus, the distance between the two positions of the particle at two times, when the velocity is instantaneously 0 = s2 – s1 = 11/4 – (-4) = 27/4 cm.

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