Kinematics Problem and final velocity

AI Thread Summary
The discussion revolves around a kinematics problem involving a particle's acceleration function, Ax(t) = -2.00m/s^2 + (3.00m/s^2)t. Participants initially struggle with integrating the acceleration to find the velocity and position equations, neglecting the constant of integration. After corrections are made, the equations for velocity and position are clarified to include initial velocity (Vi) and initial position (Xi). The user ultimately resolves the problem after receiving guidance on the integration process. The conversation highlights the importance of including constants of integration in kinematic equations.
Brett
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Problem: The acceleration of a particle is given by Ax(t) = -2.00m/s^2 + (3.00m/s^2)t. A) Find the initial velocity such that the particle will have the same x-coordinate at t= 4.00s as it had at t= 0. B) What will the velocity be at t= 4.00s?

Work so far:

Integrated to get these:

Vx(t) = -2t + (3/2)t^2
x(t) = -t^2 + (1/2)t^3

I am just stuck on what to do. I don't need it worked out as much as I just need a push in the right direction. Thanks.
 
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Both your equations are wrong. When you integrated the acceleration, you forgot about the constant of integration or the initial velocity.
 
PureEnergy said:
Both your equations are wrong. When you integrated the acceleration, you forgot about the constant of integration or the initial velocity.

So then they are:

Vx(t) = Vi + [-2t + (3/2)t^2]
x(t) = Xi + Vi(t) + [-t^2 + (1/2)t^3]

With Vi meaning initial velocity and Xi meaning initial position.

I just solved it, thanks for the correction.
 
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