Velocity, acceleration and distance

AI Thread Summary
The discussion revolves around calculating the speed, deceleration, and total distance of an object sliding on ice before reaching a rough section. The object accelerates at 5.0 m/s² over 80 cm, reaching a speed of 2.8 m/s before sliding at constant speed for 4.0 seconds. Upon hitting the rough section, it decelerates at -1.12 m/s², leading to a total sliding distance of 15.5 meters, which includes all phases of motion. There is some debate regarding the inclusion of the initial distance in the total calculation. The final consensus suggests that the total distance should be approximately 14.85 meters when excluding the initial push distance.
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Homework Statement


An object is pushed from rest across a sheet of ice, accelerating at 5.0 m/s2 over a distance of 80 cm. The object then slides at a constant speed for 4.0 s until it reaches the rough section that causes the object to stop in 2.5 s.

a) What is the speed of the object when it reaches the rough section?
b) At what rate does it slow down once it reaches the rough section?
c) What is the total distance that the object slides?


Any help will be appreciated.




Homework Equations






The Attempt at a Solution



I think:
a) find v
b) find a
c) find d(distance)

I have some answers but I don't think its correct because of the rough section part of the question.
 
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OK. What do you get for the speed when it reaches the rough area?
 
LowlyPion said:
OK. What do you get for the speed when it reaches the rough area?

I got

a) 2.8 m/s
b) -1.12 m's2
c) 15.5 m
 
cash.money said:
I got

a) 2.8 m/s
b) -1.12 m's2
c) 15.5 m

a) looks correct. So does b) I get a slightly different rounding.
 
LowlyPion said:
a) looks correct. But how did you calculate b)?

b) a = (Vf - Vi)/t
a = (0 - 2.8 m/s)/2.5 s
a = - 1.12 m/s^2 answer
 
cash.money said:
b) a = (Vf - Vi)/t
a = (0 - 2.8 m/s)/2.5 s
a = - 1.12 m/s^2 answer

It's not a big difference, but I used the √8 for v.

Now c) then is 4 * a) plus the calculation of the distance derived from slowing down over the rough. So what is the deceleration distance?
 
LowlyPion said:
It's not a big difference, but I used the √8 for v.

Now c) then is 4 * a) plus the calculation of the distance derived from slowing down over the rough. So what is the deceleration distance?

This is what I did to get c)

total distance = distance when it was being pushed + distance when
it slides at constant speed for 4.0 s + distance during which it
decelerates

Dt = D1 + D2 + D3
Dt = [(2.8 m/s)^2 - 0^2]/[(2)(5.0 m/s^2)] + (2.8 m/s)(4.0 s)
+ [0^2 - (2.8 m/s)^2]/[(2)(- 1.12 m/s^2)]
Dt = 15.5 m answer
 
cash.money said:
This is what I did to get c)

total distance = distance when it was being pushed + distance when
it slides at constant speed for 4.0 s + distance during which it
decelerates

Dt = D1 + D2 + D3
Dt = [(2.8 m/s)^2 - 0^2]/[(2)(5.0 m/s^2)] + (2.8 m/s)(4.0 s)
+ [0^2 - (2.8 m/s)^2]/[(2)(- 1.12 m/s^2)]
Dt = 15.5 m answer

The question asks for how far it slides. I wouldn't include the .8m it was pushed.

That yields √8 * 4 = 11.314
8/(2*1.13) = 3.54
Total 14.85 m.
 

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