Minimum Speed for Pendulum Bob to Complete Vertical Circle

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Homework Help Overview

The problem involves a pendulum bob that is struck by a bullet, and the goal is to determine the minimum speed of the bullet required for the pendulum bob to complete a vertical circle. The subject area includes concepts from mechanics, specifically conservation of momentum and energy.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of conservation of momentum during the collision and the subsequent energy considerations needed for the pendulum to complete its motion. Questions arise regarding the relationship between kinetic energy and potential energy at different points in the pendulum's swing.

Discussion Status

Participants are actively engaging with the problem, sharing insights about the conservation principles involved. Some have offered hints about energy conservation and the necessary conditions for the pendulum to swing through a complete circle, while others are exploring the implications of the bullet's speed on the pendulum's motion.

Contextual Notes

There is a mention of the collision not being elastic, which may influence the energy transfer considerations. Additionally, participants are navigating through the complexities of relating the bullet's speed to the pendulum's kinetic energy and potential energy at the top of the swing.

Tyst
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Q: A bullet of mass m and speed v passes completely through a pendulum bob of mass M. The bullet emerges with a speed of v/2. The pendulum bob is suspended by a stiff rod of length l and negligible mass. What is the minimum value of v such that the pundulum bob will barely swing through a complete vertical circle?

I'm having a lot of trouble with this question! I just can't seem to get my head around where to start, I've implemented the conservation of momentum equation;
mv(i) + MV(i) = mv(f) + MV(f)
as
mv = m(v/2) + MV
but i really have no idea how they want the question answered, or how to go about anwering it... :rolleyes: anyone have any insight?
Thanks for the time
 
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Tyst said:
I'm having a lot of trouble with this question! I just can't seem to get my head around where to start, I've implemented the conservation of momentum equation;
mv(i) + MV(i) = mv(f) + MV(f)
as
mv = m(v/2) + MV
So far, so good! Conservation of momentum does apply during the collision of bullet with pendulum. So this allows you to relate bullet speed (pre-collision) with pendulum speed (post-collision).

Now you need to know what minimum speed must the pendulum have to just make it swing up in a complete circle. Hint: What's conserved as the pendulum swings?

(By the way, the collision of bullet with pendulum is not an elastic collision.)
 
Heh, sorry, 'twas at the end of the chapter on elastic, i didn't think about it!
Thanks a lot for your help... would i be right, then, in thinking that the pendulum needs only enough E to reach just past the top of it's rotation, after which, gravity will act to complete the swing.
In that case, all of the kinetic E transferred to the bob will have been converted to potential E at the top of the swing...
U=mgh=K transfered=.5Mv^2
mg2l=.5M(v/2)^2
...
...
2*(mgl/M)^-2
is this along the right track?
 
You're almost there. The KE of the pendulum at the bottom position (just after the collision) must be enough to get it to the top position: use energy conservation. But what's the KE of the bob in terms of the bullet's speed? (In other words, what is 0.5 M V^2?)
 
[2*(mgl/M)^1/2 not 2! is what i ment :P]

Aaahhh! now i get it, Thanks very much for your help Doc, really appreciated.
 

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