How to find combined velocity after impact in a mallet and stake collision?

AI Thread Summary
To find the combined velocity after impact in a mallet and stake collision, the momentum conservation principle is applied. The momentum of the mallet before impact is Mv, which is transferred to the combined system of the mallet and stake after impact as (M+m)vc. Since no momentum is lost during the collision, the equation Mv = (M+m)vc holds true. By isolating vc, it can be expressed as vc = v/(1+m/M). This demonstrates how to calculate the combined velocity in terms of the masses involved.
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Homework Statement


A heavy mallet of Mass M (see Attached file) is dropped and moves through vertical distance y before it hits the top of a tent stake of mass m, driving it into the ground a distance d. Assume that the ground offers a a constant resistance to the motion of the tent stake and mallet, which move together after impact.
Show that the combined velocity, vc, of the mallet and the tent stake after impact in terms of the mass of the mallet M, the mass of the stake m and the velocity of the mallet before impact v is given by
vc=v/(1+m/M)

Homework Equations

The Attempt at a Solution


I tried to use the equation; Total momentum before collision = Total momentum after collision but had no success.
 

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You know that at the point of impact the momentum of the mallet is Mv and that momentum is transferred to the combined system as (M+m)v_c. Is any momentum lost?
If not, do the algebra.
 
Thank you RUber, no momentum is lost.
 
So then you need to show that
##Mv = (M+m)v_c \iff v_c = \frac{v}{1+\frac{m}{M}}##
Do this by isolating v_c and rewriting (M+m) as M(1+m/M).
 
Thank you very much, much appreciated
 
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