What is the acceleration of a block on an inclined plane with no friction?

AI Thread Summary
The discussion centers on determining the acceleration of a block on a frictionless inclined plane. Participants suggest using the angle θ to calculate the accelerations of both the block and the inclined plane. The acceleration of the inclined plane is expressed as (B/T)g tan(θ), while the block's acceleration is g sin(θ). A free body diagram is recommended to analyze the forces acting on both the block and the incline, emphasizing the importance of the normal force. The problem is noted as tricky due to the differing acceleration directions relative to the flat surface and the incline.
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1. a block B is placed on an inclined plane T ( a right triangle). the triangle rests on a flat surface. zero friction is assumed. what is the acceleration of T & B?

2. no angle of the triangle is given so i just added in θ on intuition. my best guess is something along the lines of:

3. acceleration of T = B/T * Gravity * sin(θ)

acceleration of B = T/B * Gravity * sin(θ)

thanks for the help
 
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It is a nice question.I am getting that acceleration of the T is (B/T)gtanθ
and on the block is gsinθ.Just draw free body diagram.and now see forces acting on the incline(Do not forget that normal reaction due to block)find it and equate Fnet=ma.and done
and second one acceleration is it is moving due to mgsinθ force so find it acceleartion.
 
This is quite a tricky problem because the direction of acceleration of the block is not obvious. Its acceleration relative to the triangle will be down the incline, but its acceleration relative to the flat surface will not be.
Set the normal force between the block and triangle to be N and write down the free body equations for each mass.
 
Yeah i forgot that thing.
 
FBD for both
 

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