Velocity, acceleration, displacement

AI Thread Summary
A cab driver accelerates to a speed limit and then decelerates on a straight 2.00 km route, with deceleration being three times the acceleration. The challenge is to find the lengths of the acceleration and deceleration phases. The equations vf = vi + at and x = xi + vit + 0.5at^2 are relevant, but users express confusion over setting up the equations correctly. It is clarified that the final velocity during acceleration matches the initial velocity during deceleration, allowing for the equations to be equated. Understanding the relationship between acceleration and deceleration phases is crucial for solving the problem.
rphung
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Homework Statement


a cab driver picks up a customer and delivers her 2.00km away, on a straight route. The driver accelerates to the speed limit and, on reaching it, begins to decelerate at once. the magnitude of the deceleration is three times the magnitude of the acceleration. find the lengths of the acceleration and deceleration phases.




Homework Equations


vf=vi+at
x=xi+vit+.5at^2


The Attempt at a Solution


I honestly don't know where to begin. I tried setting up multiple equations but i keep getting more variables then equations.
 
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rphung said:

Homework Statement


a cab driver picks up a customer and delivers her 2.00km away, on a straight route. The driver accelerates to the speed limit and, on reaching it, begins to decelerate at once. the magnitude of the deceleration is three times the magnitude of the acceleration. find the lengths of the acceleration and deceleration phases.

Homework Equations


vf=vi+at
x=xi+vit+.5at^2

The Attempt at a Solution


I honestly don't know where to begin. I tried setting up multiple equations but i keep getting more variables then equations.

Consider using the equation V2 = 2*a*x
The acceleration phase is x and the deceleration distance is (2 - x) right?
Since the V is the same:

2*a*x = 2*3a*(2-x)
 
can you explain why the v's are the same?

I thought the equation was vf^2=vi^2+2ad and when the car starts deaccelerating the vi is some unknown velocity while the vf will be 0
 
rphung said:
can you explain why the v's are the same?

I thought the equation was vf^2=vi^2+2ad and when the car starts deaccelerating the vi is some unknown velocity while the vf will be 0

Sure.

You have an acceleration phase. It gets to the speed limit from 0. That would be the first equation.
The second is from the speed limit back to 0. Same speed limit. Same speed. Then you can set the two equal.
 

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