A body moves along one dimension with a constant acceleration of $3\mathrm{.}75\frac{m}{s^2}$ over a time interval. At the end of this interval it has reached a velocity of $11\mathrm{.}0\frac{m}{s}.$

$($a$)$ If its original velocity is $5\mathrm{.}50\frac{m}{s},$ what is its displacement $($in $m)$ during the time interval?

Which constant$-$acceleration equation relates the initial velocity and final velocity to the acceleration and displacement? Can you solve this equation for the displacement? $m$

$($b$)$ What is the distance it travels $($in $m)$ during this interval?

How are displacement and distance different? Does the direction of the velocity change over the time interval in this scenario? Knowing this, can you relate the displacement to the distance? $m$ the displacement $($in $m)$ of the second body over this interval?

Which constant$-$acceleration equation relates the initial velocity and final velocity to the acceleration and displacement? Can you solve this equation for the displacement? $m$

$($d$)$ What is the total distance traveled $($in $m)$ by the second body in part $($c$),$ during the interval in part $($c$)?$ direction? How is displacement related to distance? $m$

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