Speed v of a particle moving along a straight line, when it is at a distance x from a fixed point on the line is

Q: Speed $v$ of a particle moving along a straight line, when it is at a distance $x$ from a fixed point on the line is given by $v^2 = 108 - 9x^2$ (all quantities in $S.I.$ unit). Then

b $V =3 \sqrt{12- x ^2}$ Thus, $a =\frac{ dv }{ dt }=\frac{ dv }{ dx } \cdot \frac{ dx }{ dt }$ by chain rule $\text { or, } a=v \frac{d v}{d x}=\left(3 \sqrt{12-x^2}\right) \cdot(-6 x) \cdot 1 / 2 \cdot\left(12-x^2\right)^{-1 / 2}$ At $x =3, a =3 \cdot \sqrt{3} \cdot(-18) / 2 \cdot \frac{1}{\sqrt{3}}=-27 m / s ^2$ Thus magnitude $=27$, hence $B$ is correct. $A$ is wrong because acceleration is not uniform, but dependent on $x$. D is incorrect because maximum displacement means $v =0$, which gives $O =$ $12-x^2$ or $x=\sqrt{12}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Speed $v$ of a particle moving along a straight line, when it is at a distance $x$ from a fixed point on the line is given by $v^2 = 108 - 9x^2$ (all quantities in $S.I.$ unit). Then

A
The motion is uniformly accelerated along the straight line
BThe magnitude of the acceleration at a distance $3\, cm$ from the fixed point is $0.27\, m/s^2.$
CThe motion is simple harmonic about $x =\sqrt{12} \, m.$
DThe maximum displacement from the fixed point is $4 \,cm.$

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STD 11 Science
NEET
STD 11 - 13. oscillations
Physics

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