Motion in one dimension- Find acceleration and original velocity

AI Thread Summary
The discussion centers on a physics problem involving a truck that covers 40.0 meters in 8.50 seconds while decelerating to a final velocity of 2.8 m/s. Participants explore the equations of motion to determine the truck's original speed and acceleration. A quadratic equation is derived from the motion equations to solve for the initial velocity. The solution involves setting the equation to zero and applying the quadratic formula. This approach effectively addresses the problem of finding both the original speed and the acceleration of the truck.
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Homework Statement


A truck covers 40.0m in 8.50s while smoothly slowing down to a final velocity of 2.8 m/s. a) Find the truck's original speed b) Find its acceleration


Homework Equations


a= [v-vo]/t-to

Constant acceleration:
v=vo + at
x= xo + vot + (1/2)at2

Constant velocity:
x=vt +xo


The Attempt at a Solution



well I've made pages of attempts in my notebook...but here's a sample of what I've tried

2.8 m/s = Vo + [ (2.8 m/s)2 - Vo2 / 80 ]* (8.50)

2.8 m/s = Vo + 66.64/80 - (8.50Vo2)/80
 
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You have a quadratic equation in the initial speed. How would you solve a quadratic equation.
 
Set it equal to zero then use the quadratic formula which would give the initial speed?
 
Yes, that is how you would solve for the initial velocity.
 

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