Minimum Impact Velocity for Pendulum to Swing Over Top of Arc

gregcor · Mar 17, 2009

Homework Statement

A pendulum consists of a mass M hanging at the bottom end of a massless rod of length l, which has a frictionless pivot at its top end. A mass m, moving as shown in the figure with velocity v impacts M and becomes embedded.

What is the smallest value of v sufficient to cause the pendulum (with embedded mass m) to swing clear over the top of its arc?

Homework Equations

[tex]p=mv[/tex]

The Attempt at a Solution

I realize that the acceleration must be [tex]\frac{v^2}{l}=g[/tex] to swing over the arc. Thus, I found:

[tex]v_f=mv_i/(m+M)[/tex], and set V_f equal to [tex]\sqrt{lg}[/tex] from the first equation.

I got:
[tex]v_i=\frac{(m+M)\sqrt{lg}}{m}[/tex]

But the software returned:

Code:

Your answer either contains an incorrect numerical multiplier or is missing one.

Help!
Thanks!

LowlyPion · Mar 17, 2009

What is the top of its arc?

Is there a figure you can provide or describe in better detail?

gregcor · Mar 17, 2009

LowlyPion said:

What is the top of its arc?

Is there a figure you can provide or describe in better detail?

Sure. See the attachment.
Thanks!

Minimum Impact Velocity for Pendulum to Swing Over Top of Arc

Homework Statement

Homework Equations

The Attempt at a Solution

Attachments

1. What is a collision around a pendulum?

2. How does the mass of the object affect the collision around a pendulum?

3. What happens to the energy of the system during a collision around a pendulum?

4. How does the length of the pendulum affect the collision?

5. How do you calculate the speed of the object after the collision around a pendulum?

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