Acceleration and velocity of a car

AI Thread Summary
The discussion focuses on calculating the acceleration and velocity of a mine car being hoisted up an incline. The force acting on the car is given by F = 3200 t^2, and the initial conditions include a mass of 400 kg and an initial velocity of 2 m/s. The correct approach involves using the equation F = ma, accounting for gravitational force, and integrating to find acceleration and velocity. After correcting initial equations, the calculated acceleration at t = 1 s is 3.1 m/s², and the need to include initial velocity in further calculations is emphasized. The position after 3 seconds requires a different integration approach rather than a simple linear formula.
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Homework Statement

The 400 kg mine car is hoisted up the incline with a slope
angle of 30°. The massless cable connects the mine car and
the motor that induces its motion. The force in the cable is
defined by following function F = 3200 t2 [N], where the
time t is in seconds. The mine car has at t = 0 and s = 0 an
initial velocity v1 = 2 m/s. There is no friction between the
mine car and the incline.
a) Determine the acceleration of the mine car for t = 1 s.
b) Calculate the velocity of the mine car when t = 2 s.

Image of the mine car
http://img14.imageshack.us/i/caraws.jpg/" http://img14.imageshack.us/i/caraws.jpg

Homework Equations



F=ma

mgsin(30) + 3200 t^2 = ma - second derivative - here we have acceleration

now we integrate the above and we get

a= (mgsin(30) + 3200t^2)t / m - first derivative - here we have velocity

now we integrate again and we get

a= (mgsin(30) + 3200t^2)t^2 / 2m - here we have the distance

The Attempt at a Solution



Are my equations correct ?
 
Last edited by a moderator:
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No.

In the first equation the sign of the force due to gravity and the tension in the cable are the same.

Also you neglect the initial velocity of 2m/s.
 
Ok.Right. Here is what i do now.

F=m*a

F-mgsin(30) = m*a

3200t2 - 400*9.8*1/2 = 400*a

a=8t2 -4.9 - that's the acceleration

We need to find the acceleration after 1 second. Therefore a=8-4.9=3.1 -> a=3.1

Now we have to find the velocity after 2 seconds.

a=dv/dt -> dv=a*dt . Now we integrate and we get the velocity after 2 seconds.


Are my equations now correct ?
 
Looks good, but possibly neglects the initial velocity which needs to be entered. Perhaps you planned on adding the constant after the integration which is fine, just wanted to make sure it wasn't forgetten: ie \int dv=V(t) +Vo
 
Yes. Thank you. And one last question. I need to determine the position of the car after 3 seconds. Can I use this formula -> S=S0 + v0t + 1/2at2
 
No that is used for linear acceleration; instead integrate again, So = 0 in the problem.
 

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