How do momentum and center of mass play a role in solving a boat problem?

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SUMMARY

The discussion focuses on applying conservation of momentum and calculating the center of mass in a boat problem involving a thrown backpack. Participants confirm that the momentum of the system must be conserved, leading to the equations (MB + M1 + M2)VBoat = MPVP and MPVP = (M1 + M2 + MB)VBoat, Final. The importance of directionality in momentum is emphasized, particularly when the backpack is caught, as it transfers its momentum to the boat and person system. Ultimately, the correct setup of equations is crucial for solving the problem accurately.

PREREQUISITES
  • Understanding of conservation of momentum
  • Familiarity with center of mass calculations
  • Basic knowledge of physics equations: p = mv and XCM = (m1x1 + m2x2)/(m1 + m2)
  • Ability to analyze vector directions in momentum
NEXT STEPS
  • Study the principles of conservation of momentum in closed systems
  • Learn how to compute center of mass for multiple objects
  • Explore examples of momentum transfer in collision problems
  • Investigate the effects of friction on momentum calculations
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Students studying physics, particularly those tackling problems involving momentum and center of mass, as well as educators seeking to clarify these concepts for learners.

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Homework Statement


physicsmidtermproblem.jpg



Homework Equations



p=mv
XCM = (m1x1 + m2x2)/(m1 + m2)

The Attempt at a Solution



I'm really confused on this problem. I'm not sure if I should be using conservation of momentum, or what. Also do I have to compute the center of mass for the boat?

Thanks
 
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You don't think Mb is relevant to determining the momentum of the system?
 
But to answer your confusion, yes, you are supposed to used conservation of momentum.
 
Ok, I'm still not really sure how to solve the problem. I don't even know where to begin really.
 
When the ball is in the air, it has m1V1.

But if the boat was at rest when it was thrown and the friction is 0, then that means that the boat and people have opposite momentum doesn't it? But they of course have a different mass than the ball, so ...
 
I'm still confused how to set up the equations for parts A and B...

would it be, for part A:

(MB+M1+M2)VBoat = MPVP
 
haydn said:
I'm still confused how to set up the equations for parts A and B...

would it be, for part A:

(MB+M1+M2)VBoat = MPVP

That looks right.

What happens then when it is caught?
 
MPVP = (M1+M2+MB)VBoat, Final

?
 
haydn said:
MPVP = (M1+M2+MB)VBoat, Final

?

No. Because the momentums are in different directions aren't they and when it is caught what happens to the total momentum?

I should have pointed out before that the V of the boat and people was opposite to the Vp.
 
  • #10
Ok, so in that first equation you said was right there should be a negative in front of VBoat?

I don't know what happens when the backpack is caught... I thought all the momentum of the backpack would transfer to the boat+person system.
 
  • #11
haydn said:
Ok, so in that first equation you said was right there should be a negative in front of VBoat?

I don't know what happens when the backpack is caught... I thought all the momentum of the backpack would transfer to the boat+person system.

It does.

But happily it must be the very same momentum that was imparted to the backpack when it was thrown.

Hence Momentum before throwing = momentum after being caught isn't it?
 
  • #12
Ok great. I figured out the right answer now. Thanks for the help!
 

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