What Is the Speed of the Combined Blocks After Collision?

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Homework Help Overview

The problem involves a frictionless quarter-circle track and two identical blocks colliding inelastically. The original poster seeks to determine the speed of the combined blocks immediately after the collision, expressed in terms of mass, radius, and gravitational acceleration.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of conservation of momentum and the need to find the speed of block A just before the collision. There is an exploration of the initial conditions and how they affect the final velocities.

Discussion Status

Some participants have provided guidance on finding the speed of block A at the bottom of the arc, indicating that momentum is conserved during the collision. There is an ongoing exploration of the calculations involved in determining the final speed of the combined blocks.

Contextual Notes

The discussion includes assumptions about the frictionless nature of the arc and the inelastic collision between the blocks. There is a focus on expressing the final speed in terms of the given variables.

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Homework Statement


A track consist of a frictionless arc XY, which is a quarter-circle of radius R, and a rough horizontal section YZ. Block A of mass M is releasecd from rest at point X, slides down the curved section of the track, and collides instantaneously and ineslastically with identical block B at point Y. The two blocks move together to the right. Express the answers in term of M, R, and g.
It asked to determind the speed of the combined blocks immediately after the collision.


Homework Equations





The Attempt at a Solution


Help me out please. This is the question from the AP test Physic B. I've tried to use the conservation of momentum after collision. But the initial velocity is 0, so how can i find the velocity after collision?Thank you
 
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zvee_y said:
I've tried to use the conservation of momentum after collision.
Good. Momentum is conserved during the collision.
But the initial velocity is 0, so how can i find the velocity after collision?
The initial speed is 0 at the top of the arc, but the collision takes place at the bottom of the arc. Since the arc is frictionless, find the speed of block A when it reaches the bottom, just before it collides with block B.
 
so v=square-root-of 2gR
and the final velocity of 2 objects is vf=(square-root-of 2gR)/2
Is it right?
 
Right. That's the final speed of both blocks immediately after the collision.
 
Thank you!
 

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