Rocket Explosion: Min & Max Final Speed

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SUMMARY

The discussion focuses on calculating the final speeds of the front and rear sections of a rocket after an explosion, given an initial speed of 40 m/s and a relative speed of 20 m/s between the two sections. The key equations utilized include the conservation of momentum and the relationship between the masses of the rocket sections. The minimum final speed of the front section occurs when the mass ratio is at a specific limiting value, while the maximum final speed is determined under different conditions. The participants emphasize the importance of using conservation of momentum to derive the final speeds accurately.

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Homework Statement



A rocket with a mass M moves along an x-axis at the constant speed vi=40 m/s. A small explosion separates the rocket into a rear section (of mass m1) and a front section; both sections move along the x axis. The relative speed between the rear and front sections is 20 m/s. What are (a) the minimum possible value of final speed vf of the front section and (b) for what limiting value of m1 does it occur? (c) What is the maximum possible value of vf and (d) for what limiting value of m1 does it occur?

Homework Equations





The Attempt at a Solution



I tried to use the formula v1f=(m1-m2/m1+m2)(v1i)
and I found m2=M-m1 and v1i=40 m/s

And I know that the v1f will equal 20 m/s+v2f

Other than that I don't know how else to proceed. I think I just need a push in the right direction to get the answer, I just don't know where to go next. Thanks!
 
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or would you use the conservation of momentum?

M(40m/s)=m1fv1f+m2fv2f

which simplifies to v2f=(40M+20mi)/M

Now there is three unknowns...i think its asking for a value though...
 
Use conservation of momentum and the relative velocity after the explosion. You can solve for v2f in terms of m1 and M.
 

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