(B) Given: Distance $(s)$ = $3.06 \ m$,Average velocity $(v_{avg})$ = $0.34 \ ms^{-1}$,Change in velocity $(\Delta v)$ = $0.18 \ ms^{-1}$.First,calcul

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(B) Given: Distance $(s)$ = $3.06 \ m$,Average velocity $(v_{avg})$ = $0.34 \ ms^{-1}$,Change in velocity $(\Delta v)$ = $0.18 \ ms^{-1}$.First,calculate the time taken $(t)$ using the formula: $t = \frac{s}{v_{avg}} = \frac{3.06}{0.34} = 9 \ s$.Now,calculate the uniform acceleration $(a)$ using the formula: $a = \frac{\Delta v}{t} = \frac{0.18}{9} = 0.02 \ ms^{-2}$.

Class 11 Physics Motion in Straight Line Uniformly Accelerated Motion

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The average velocity of a body moving with uniform acceleration travelling a distance of $3.06 \ m$ is $0.34 \ ms^{-1}$. If the change in velocity of the body is $0.18 \ ms^{-1}$ during this time,its uniform acceleration is ......... $ms^{-2}$.

A
$0.01$
B
$0.02$
C
$0.03$
D
$0.04$

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Motion in Straight Line

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Uniformly Accelerated Motion

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The average velocity of a body moving with uniform acceleration travelling a distance of $3.06 \ m$ is $0.34 \ ms^{-1}$. If the change in velocity of the body is $0.18 \ ms^{-1}$ during this time,its uniform acceleration is ......... $ms^{-2}$.

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