Fictious force: Cylinder on an Accelerating Plank

AI Thread Summary
The discussion centers on the relationship between angular acceleration and linear acceleration in the context of a cylinder on an accelerating plank. Participants express confusion over the equation α'R = a', questioning its dimensional correctness. Clarifications are made that linear acceleration (a) and angular acceleration (α) are distinct, with the correct relationships being s = rθ, v = rω, and a = rα. The use of unconventional notation in the problem statement contributes to the confusion. Ultimately, the conversation emphasizes the importance of understanding the differences between angular and linear quantities in physics.
Leb
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Homework Statement



Problem is described in the picture
Cylinder on an accelerating plank.jpg

I do not understand how can \alpha^{'}R=a^{'}.
The dimensions do not seem correct. Angular velocity x distance from the origin = tangential velocity, is that correct ? How can this equal acceleration then ?

3. Attempt to solution

I think that \alpha^{'}R=a^{'} would hold only if we would consider a unit time. That is:
\alpha^{'}R=\frac{d\theta}{dt}R, which, more by knowing the anticipated result in this case, than by logic, gives \frac{d\theta}R = a^{'}dt which is now dimensionally OK, I think...
 
Last edited:
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Hi Leb! :smile:
Leb said:
I do not understand how can \alpha^{'}R=a^{'}.
The dimensions do not seem correct. Angular velocity x distance from the origin = tangential velocity, is that correct ? How can this equal acceleration then ?.

No, a is (linear) acceleration, and α is angular acceleration

s = rθ

v = rω

a = rα :wink:
 
Thanks tiny-tim !
It was strange to see an alpha instead of omega, but since the author was at times using random notation (such a ro, for distance and w for density...) made me forget about usual notation:)
 
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