Rigid Body dynamics - elastic collisions

AI Thread Summary
The discussion revolves around solving a physics problem involving a uniform rectangular tile dropping and colliding elastically with a vertical pole. Participants emphasize the importance of conservation of kinetic energy and angular momentum in analyzing the collision. The moment of inertia tensor is highlighted as a crucial component for calculating angular momentum and angular velocity after impact. There is a focus on applying the parallel axis theorem to determine the principal moments of inertia at the corner of the tile. The conversation indicates that using these principles will lead to determining the velocity and angular characteristics of the tile post-impact.
Plutoniummatt
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Homework Statement



A uniform rectangular tile drops without spinning until its corners reach positions
(0; 0; 0); (2a; 0; 0); (2a; 2b; 0); (0; 2b; 0), when it strikes the top of a vertical pole at a
point very close to the (0; 0; 0) corner. Just before impact the velocity of the tile was
(0; 0;u). Assuming that the tile does not break, and that the impact is elastic (i.e.
the kinetic energy of the tile is conserved), find immediately after impact

(a) the velocity of its centre;
(b) the angular momentum about its centre;
(c) its angular velocity.

Show that the velocity of the corner at (0; 0; 0) becomes (0; 0;+u) immediately after
impact.

Homework Equations



Inertia tensors of the rigid body involved, all standard mechanics equations.

The Attempt at a Solution



I honestly have no idea how to approach this...all i can write down is the initial KE = final KE...
 
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Hi Plutoniummatt! :smile:

(what is the velocity just before impact? on my computer it looks like (0; 0;u) :confused:)
Plutoniummatt said:
I honestly have no idea how to approach this...all i can write down is the initial KE = final KE...

ok, write that down.

Then, since there's no external torque-impulse about the corner, write down conservation of angular momentum about the corner.
 
Ok, what do I do after? Something to do with moment of inertia tensor maybe? although don't know how to find the axis of rotation...and how do I find angular velocity?

Thanks
 
Hi Plutoniummatt! :wink:

Write out all the equations, and see where you get. :smile:

(and yes, you will need the moment of inertia tensor for the angular momentum equation)
 
Hi Plutoniummatt! :smile:

(have an omega: ω :wink:)

Let's see … your moment of inertia tensor Îc (about the centre of mass) has principal moments of inertia mb2/3 ma2/3 and m(a2 + b2)/3.

So yes, now use the parallel axis theorem to get the principal moments of inertia at (0,0,0), and then use Îω and ωÎω/2. :smile:
 
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