How Far Does a Car Travel to Reach 4.61 m/s with Non-Constant Acceleration?

AI Thread Summary
The discussion focuses on solving a differential equation related to a car's acceleration, defined by a non-constant acceleration function a(s) = k*s^n. The user is trying to determine the distance traveled by the car when it reaches a speed of 4.61 m/s, starting from rest. Key steps involve using the chain rule to express acceleration in terms of velocity and distance, leading to the equation v dv/ds = ks^n. Participants clarify the need to solve this differential equation to find the distance s, emphasizing the importance of correctly applying calculus techniques. The conversation highlights the process of integrating and substituting values to arrive at the solution.
albert12345
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Homework Statement


A car accelerates with the acceleration a(s)=k*s^n m/s^2
s= distance in m
k = 5,8
n=0,7351
The car starts the acceleration from 0 m/s

How far has the car traveled when it reaches the speed 4,61m/s?

The Attempt at a Solution


When i anti derivate one time i will get dv/dt. Do i put in the distance after that?
 
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adx = adv

Where x is the distance "s"
so I get this:

(1/2)*(x^2) = v2^2 - V1^2

Where v2 is the final speed and v1 is the starting speed=0..

Am i right or wrong?
 
Albert12345 said:

The Attempt at a Solution


When i anti derivate one time i will get dv/dt. Do i put in the distance after that?

What do you mean? dv/dt =a, the acceleration.

You have a differential equation dv(s(t))/dt=k*s^n. Write up the left-hand side with applying the chain rule:

dv/dt=dv/ds ds/dt. ds/dt=v, so v dv/ds =ks^n. This is a differential equation for v(s), easy to solve.ehild
 
So I just plug in my values here, or do i have to antiderivate first?

v dv/ds =ks^n
 
So I just plug in my values here and solve for s, or do i have to antiderivate first?

v dv/ds =ks^n
 
How do you want to solve for s? Show your attempt.

ehild
 

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