Math, asked by itzsecretgirl57, 3 months ago

A car accelerates (at a constant rate) from rest to 24-m/s in 19.6-seconds. How far will it travel during that time?

Answers

Answered by Anonymous
18

{\rm{\purple{\underline{\underline{\huge{Answer}}}}}}

\sf\large\underline\pink{Given:-}

\sf{\implies Intial\:_{(velocity)}=0}

\sf{\implies Final\:_{(velocity)}=24m/s}

\sf{\implies Time\:_{(take)}=19.6}

\sf\large\underline\pink{To\: Find:-}

\sf{\implies Distance\:_{(traveled\:by\:car)}=?}

\sf\large\underline\pink{Solution:-}

To calculate the distance traveled by car at first we have to represent the given value in abbreviation form so, intial velocity as you know that it the motion of any body in rest because of at a constant rate. Intial velocity=U , Final velocity=24m/s Time=t. After that by applying formula to calculate the acceleration of car then calculate distance traveled by car:-]

\sf\large\underline\pink{Formula\:used:-}

\sf{\implies As\:per\: first\: equation\:of\: motion:-}

\tt{\implies v=u+at}

\tt{\implies 24=0+a*19.6}

\tt{\implies 19.6a=24-0}

\tt{\implies a=\dfrac{24}{19.6}}

\tt\purple{\implies a=1.22\:m/s^2(approx)}

\sf{\implies As\:per\:3rd\: equation\:of\: motion:-}

\tt{\implies v^2-u^2=2as}

\tt{\implies 24^2-0^2=2(1.22)(s)}

\tt{\implies 576-0=2.44s}

\tt{\implies 2.44s=576}

\tt{\implies s=\dfrac{576}{2.44}}

\tt\purple{\implies s=236\:m(approx)}

Hence,

\sf{\implies Distance\:_{(traveled\:by\:car)}=236\:m}

\sf\pink{\implies Some\: abbreviation\:form}

\sf{\implies A\:_{(stand\:for)}=acceleration:-}

\sf{\implies U\:_{(stand\:for)}=Intial\: velocity:-}

\sf{\implies V\:_{(stand\:for)}=Final\:velocity:-}

\sf{\implies S\:_{(stand\:for)}=Distance\:_{(travel\:by\:a\: body)}}

thanks!

Answered by Anonymous
7

\Huge\sf\underline\red{Question}

A car accelerates (at a constant rate) from rest to 24-m/s in 19.6-seconds. How far will it travel during that time?

\Huge\sf\underline\blue{Answer}

⟹As per first equation of motion:−

\tt{\implies v=u+at}

\tt{\implies 24=0+a*19.6} \\\tt{\implies 19.6a=24-0}

\tt{\implies a=\dfrac{24}{19.6}} \tt⟹a=19.624

\tt\red{\implies a=1.22\:m/s^2(approx)}

\sf{\implies As\:per\:3rd\: equation\:of\: motion:-}

\tt{\implies v^2-u^2=2as}

\tt{\implies 24^2-0^2=2(1.22)(s)}

\tt{\implies 576-0=2.44s}

\tt{\implies 2.44s=576}

\tt{\implies s=\dfrac{576}{2.44}}

\tt\red{\implies s=236\:m(approx)}

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