How far does a car travel after accelerating to 60km/h in 4.2 seconds?

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SUMMARY

A car accelerating from 0 to 60 km/h in 4.2 seconds does not have a unique distance traveled due to the lack of a defined acceleration function. Assuming constant acceleration, the formula x = 1/2 a t² can be applied, where acceleration a is calculated as Δv/Δt. To find the distance, one must convert the speed from km/h to m/s and apply the appropriate time unit conversions. Without a clear acceleration profile, the exact distance remains indeterminate.

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Graham Downs
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Hi, all

I have a question that I've been Googling for the past hour or so, and cannot find the answer to. I seem to remember it has something to do with the logarithmic scale. I hope somebody here can answer it for me:

A car accelerates from 0 to 60km/h in 4.2 seconds. What I'd like to know is how far the car has traveled (In metres) after the 4.2 seconds - when it has attained its 60km/h speed.

We cannot assume a constant acceleration, as the speed increases gradually every second of the 4.2 seconds.

Can anybody help with this?

Cheers
Nocturne
 
Last edited:
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If we do not assume contant and do not have the rate of acceleration as a function of time there is not a unique answer to the question. The distance traveled is determined by the rate of acceleration.

Assuming a contant acceleration you can use:
x = \frac 1 2 a t^2 with

a = \frac { \Delta v } { \Delta t} = \frac {60 km/h} {4.2 s}

You will need to convert the 4.2 seconds to hours.
 
Last edited:
You need to know what the acceleration of the car looks like, and that isn't that easy to find without making some pretty big assumptions.
 

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