How far does the car travel while slowing down?

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In summary, the car's acceleration can be calculated using Newton's laws and the distance it travels while slowing down can be calculated using the kinematic equations of motion. Alternatively, the work-energy theorem can also be used, where the net force is equal to the change in kinetic energy. In this case, the force of friction does not need to be considered as it is given as a net number. Using the given values of 9500N for the net force, 30.0m/s for the initial velocity, and 23.4m/s for the final velocity, the car's distance of deceleration can be calculated to be around 18.5m or 19m with the appropriate number of significant figures.
  • #1
StephenDoty
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A 1000.0 kg car experiences a net force of 9500N while decelerating from 30.0m/s to 23.4m/s. How far does the car travel while slowing down?

I do not even know how to start to setup the problem. I know that W=Fd but I do not know how to apply this with the velocities.

Any help would be appreciated. Thank you.

Stephen
 
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  • #2
You can calculate the car's acceleration from the given data using Newton's laws, then use the standard kinematic equations of motion to calculate the distance.
 
  • #3
since we are on the energy and momentum chapter is there any way to do it with KE and PE?
 
  • #4
StephenDoty said:
since we are on the energy and momentum chapter is there any way to do it with KE and PE?
Oh, sure. Use the work energy theorem
[tex]W_{total} = W_{net} = \Delta KE[/tex]. In general , you've got to be a bit careful when using this equation, because W_net includes work done by both conservative (like gravity) and non-conservative (friction, etc.) forces, but it this case, those forces are given as one net number, so you don't have to worry about PE change.
 
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  • #5
so...
Fd=1/2mvf^2 - 1/2mvi^2

?
 
  • #6
StephenDoty said:
so...
Fd=1/2mvf^2 - 1/2mvi^2

?
yes, where the value you use for F is the given F_net. Check it out both ways using the energy method vs. Newton 2 and the kinematic equations.
 
  • #7
Would vi be 23.4m/s
and vf= 30m/s
?

If it is the other way around then F*D= a negative number

any help would be appreciated.
 
  • #8
vf is 23.4m/s since you're slowing down, right? so the change in kinetic you get should be a negative number, and keep in mind that the force of friction is always negative, so the work done is negative too.
 
  • #9
so vi= 30.0m/s
vf=23.4m/s

and the force of 9500N is negative?

-9500N*d=(1/2)(1000kg)(23.4m/s)^2 - (1/2)(1000kg)(30m/s)^2

?
 
  • #10
yep.
 
  • #11
d= 18.5m or 19m with sig figs.?
 
  • #12
A general rule of thumb is to use the least amount of sig figs as the values given to you in the question.
 
  • #13
which would be 2 from 9500N
 
  • #14
do i have the right number of sig figs
 

1. How does the distance traveled while slowing down compare to the distance traveled while accelerating?

The distance traveled while slowing down is typically shorter than the distance traveled while accelerating. This is because the car is slowing down and therefore covering less ground in the same amount of time.

2. Why does the car continue to travel a certain distance even after the brakes are applied?

When the brakes are applied, the car's momentum causes it to continue moving forward for a short distance before coming to a complete stop. Additionally, the brakes may not immediately slow down the car due to factors such as friction and reaction time.

3. Does the weight of the car affect the distance traveled while slowing down?

Yes, the weight of the car does affect the distance traveled while slowing down. A heavier car will require more force to slow down and will therefore travel a longer distance while slowing down compared to a lighter car.

4. Can the distance traveled while slowing down be calculated?

Yes, the distance traveled while slowing down can be calculated using the formula d = (v02 - v2)/(2a), where d is the distance traveled, v0 is the initial velocity, v is the final velocity, and a is the deceleration rate.

5. What factors can affect the distance traveled while slowing down?

The distance traveled while slowing down can be affected by factors such as the car's weight, speed, deceleration rate, road conditions, and the efficiency of the braking system.

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