Finding the Velocity of a Cart at its Highest Point

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The discussion revolves around calculating the velocity of a cart at its highest point on an xy plane, given its acceleration and initial velocity components. At the highest point, the y-component of velocity is zero, allowing for the use of kinematic equations to find the time it takes to reach this point. The user calculates the time to reach the highest y-coordinate as 6 seconds, using the equation V = Vi + at with the appropriate values for the y-component. Subsequently, they apply the same equation to determine the x-component of velocity, resulting in a final velocity of 32 m/s in the x-direction. The final answer in unit vector notation is expressed as 32i + 0j.
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A cart is propelled over an xy plane with acceleration components ax=4.0m/s^2 and ay= -2.0m/s^2 . Its initial velocity has components Vix=8.0m/s and Viy12 m/s. In unit-vector notation, what is the velocity of the cart when it reaches its greatest y coordinate?



im confused on how to get this going. Since the cart is at its highest point the velocity in the y direction is 0. could some one help me with the next step of this thanks
 
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So you know that,

v_y = f(t) = 0

at your highest point.
Well you should also know that v_x = f(t) where "t" is the same as the "t" for your y position.

Does that help?
 
Last edited:
no I am still confused
 
Ok, you already have the necessary x and y components, so you can treat each one like a one dimensional problem right?
Do you know the equations for position/velocity/acceleration as functions of time? If not check out the formulas in in the sticky thread and go back over your textbook.
Once you have the equation for velocity as a function of time, you only need to solve for time using your knowledge that the y-component velocity equals zero at the needed time. with this value of t you can calculate the x-component velocity.
 
thanks
 
i think i have the answer i was just wondering if someone could tell me if i am right.

I used the eqn V = Vi + at
because the y velocity at the highest point is zero i used that for V
-12 for Vi
-2.0 for a

and got time = 6 seconds.

then i used the same eqn with this time = to 6 seconds and used 4.0 for a and 8.0 for Vi. All the horizontal inforamtion. I got 32 m/s for an answer.

so in unit vector notation the answer would be 32i +0j = V
 
Please, would someone explain me how do you know that at its highest point the velocity of the cart is 0 in its y coordinate. Well, i am trying to figure out how do the problem, as it seems easy, but it really isn't. I would really appreciate someone explaining it. Please reply.
 

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