Solving Equations of Motion: When Will 100g Mass Overtake 1.5kg Shot Put?

AI Thread Summary
The discussion centers on a physics experiment where a 1.5kg shot put is dropped from a height of 60m, while a 100g mass is thrown downward from 10m above with an initial velocity of 10 m/s. Two methods are proposed to determine when the lighter mass overtakes the shot put: using equations of motion for both objects or simplifying the problem to a relative velocity scenario. The equations of motion account for gravitational acceleration, and air resistance can be neglected for this analysis. Ultimately, the focus is on calculating the time at which both objects reach the same position during their fall. The problem illustrates key concepts in kinematics and the effects of gravity on falling objects.
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Two physics students conduct the following experiment from a very high bridge. Thao drops a 1.5kg shot put from a vertical height of 60m while at exactly the same time Benjamin throws a 100g mass with an initial downwards velocity of 10 m/s from a point 10m above Thao.

At what time will the 100g mass overtake the shot-put?
 
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There are two ways to set up this problem:

1. Use the usual equations of motion for body 1 (the heavier mass) and 2 (the lighter mass).

S(1) = 70 -10t - 0.5gt^2
S(2) = 60 - 0.5gt^2

Then solve for the time when their positions are the same.

2. Since the acceleration of both objects are the same under gravity, you may notice that this can be reduced to a simple relative velocity problem.
 
And one more thing,though you're give the masses,you may very well neglect air friction.The fact that they give you the masses was just for identification.

Daniel.
 

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