Solving for Car's Acceleration, Time, and Average Speed

AI Thread Summary
A car accelerates from rest over 1250 meters to a final speed of 112 km/h. The calculated acceleration using time is 0.77 m/s², while using the equation v² = V(initial)² + 2a(d) gives an inconsistent result of 0.387 m/s². The discrepancy arises because the car accelerates throughout the distance, not instantaneously reaching the final speed. To resolve this, the correct equations of motion must be applied, considering both time and acceleration. Clarification on the appropriate equations is needed to accurately compute the distance and acceleration.
Goopy17
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Homework Statement


A car is initial at rest. It accelerates over a distance of 1250m and reaches a speed of 112 km/h. Find: A) the acceleration for the car B) the time it took for it to reach this final speed C) the average speed


Homework Equations


A = delta V/ delta T or v^2 = V (initial)^2 + 2a (d -d(initial))
d = d(initial) + vt



The Attempt at a Solution


1250 = 0 + 31.1(t)
t = 40.18

A = 31.1/40.18
A = .77 m/s^2

BUT here is the problem

if i use v^2 = V (initial)^2 + 2a (d -d(initial))
31.1^2 = 0^2 + 2a(1250)
A = .387 m/s^2
that is half of the first one?


that is where i need help
Thanks!
 
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Goopy17 said:
if i use v^2 = V (initial)^2 + 2a (d -d(initial))
31.1^2 = 0^2 + 2a(1250)
A = .387 m/s^2
that is half of the first one?

Your solution for the acceleration in this section is correct.

Goopy17 said:
1250 = 0 + 31.1(t)
t = 40.18

A = 31.1/40.18
A = .77 m/s^2

No.
Remember, the car is accelerating over this distance. It travels the 1250 meters before it reaches it's final speed.

Do you have the other equations of motion there? Which of them can you use that uses time and acceleration to compute a distance?
 
Not sure. Can you please explain?
 

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