Calculating Time for a Ball Rolling Down an Inclined Plane

AI Thread Summary
To calculate the time it takes for a ball to roll down an inclined plane with an acceleration of 2 m/s² over a distance of 50 m, the equation s = ut + 1/2 at² can be used. The simplified formula t = sqrt(2s/a) is applicable, leading to a correct approach for finding time. However, the discussion highlights that the rotational kinetic energy of the rolling ball has not been considered, which is crucial for a complete analysis. Despite this, the linear acceleration of the center of mass allows for the use of kinematic equations. The consensus is that the initial method is valid for determining the time of travel.
Nuha99
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Q: A ball is at rest on an inclined plane. It begins to roll down with an acceleration of 2 m/s^2. How long does it take the ball to roll 50 m?

This is my work:

find time using, s = ut + 1/2 a t^2

t = sqrt(2s/a)

Plug in the s = 50 and a = 2

Am I right?

Thanks a lot.
 
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Where have you used the fact that this is a rolling ball and not a falling mass point? In particular, you have not taken into account the rotational kinetic energy.
 
Thanks for your reply.

A falling object accelerates with acceleration of gravity, g. Here the given acceleration, as I understand, is the acceleration of the center of mass (linear acceleration). Even though the ball is rolling, C.M is moving in a straight line along the incline so that we can use the equation of kinematics.

In particular, you have not taken into account the rotational kinetic energy.

Conservation of energy gives me an expression for the final velocity as a function of initial height of the ball above the ground, and will not allow me to find the time of travel.
 
Nuha99 said:
Thanks for your reply.

A falling object accelerates with acceleration of gravity, g. Here the given acceleration, as I understand, is the acceleration of the center of mass (linear acceleration). Even though the ball is rolling, C.M is moving in a straight line along the incline so that we can use the equation of kinematics.

Conservation of energy gives me an expression for the final velocity as a function of initial height of the ball above the ground, and will not allow me to find the time of travel.

That is correct. Your approach looks correct for this problem.
X = 1/2 a t2 in this case because you are given its constant acceleration.
 

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