Science, asked by Munmoon4568, 1 year ago

A particle moves along a straight line such that its displacement at any time t is given by:
S= t^3 -6t²+3t+4 mts.
The velocity when the acceleration is zero

Answers

Answered by B509
26

Answer:

Explanation:

I hope it's correct

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Answered by AnIntrovert
15

✴ Correct Question :

A particle moves along a straight line such that its displacement at any time t is given by \bf{s=t^3-6t^2+3t+4} find the velocity when acceleration is zero.</p><p></p><h2>✴ Solution :</h2><p></p><p><strong>✏ We know that,</strong></p><p></p><p>[tex]\begin{lgathered}\bigstar\bf\:v=\dfrac{ds}{dt}\\ \\ \bigstar\bf\:a=\dfrac{dv}{dt}=\dfrac{d^2s}{dt^2}\end{lgathered}

Acceleration of particle :

\begin{lgathered}\longrightarrow\sf\:a=\dfrac{d^2s}{dt^2}\\ \\ \longrightarrow\sf\:a=\dfrac{d^2(t^3-6t^2+3t+4)}{dt^2}\\ \\ \longrightarrow\sf\:a=6t-12\\ \\ \longrightarrow\sf\:ATQ,\:a=0\\ \\ \longrightarrow\sf\:a=6t-12=0\\ \\ \longrightarrow\sf\:6t=12\\ \\ \longrightarrow\boxed{\bf{\large{t=2\:s}}}\end{lgathered}

Velocity of particle at t = 2s

\begin{lgathered}\longrightarrow\sf\:v=\dfrac{ds}{dt}\\ \\ \longrightarrow\sf\:v=\dfrac{d(t^3-6t^2+3t+4)}{dt}\\ \\ \longrightarrow\sf\:v=3t^2-12t+3\\ \\ \longrightarrow\sf\:v=3(2)^2-12(2)+3\\ \\ \longrightarrow\sf\:v=12-24+3\\ \\ \longrightarrow\boxed{\bf{\red{v=-9\:mps}}}\end{lgathered}

Additional information :

⏭ Velocity is a vector quantity.

⏭ It can be positive, negative and zero.

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