Gravitational Forces and Motion in a System of Four Bodies

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Homework Help Overview

The problem involves gravitational forces and motion in a system of four bodies, specifically three uniform spheres and a small particle. The original poster seeks to determine the force on the particle due to the spheres and its speed when released from a specific position in outer space.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss the need to calculate the gravitational forces acting on the particle from each sphere and consider the conservation of energy for the motion of the particle.

Discussion Status

Some participants have offered hints regarding conservation principles and the need to analyze forces vectorially. There is an ongoing exploration of how to approach the calculation of forces and energy changes without a clear consensus on the next steps.

Contextual Notes

The problem is constrained by the requirement to analyze gravitational interactions in a specific configuration and the lack of explicit numerical values for certain distances in the second part of the question.

whiteway
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Homework Statement


Three uniform spheres are fixed at the positions shown in the figure below. (m1 = 1.0 kg, m2 = 2.0 kg, and d = 0.60 m.)

(See attached picture)

(a) What are the magnitude and direction of the force on a 0.0250-kg particle placed at P?


(b)If the spheres are in deep outer space and a 0.0250-kg particle is released from rest 300 m from the origin along a line 45° below the -x-axis, what will the particle's speed be when it reaches the origin?


Homework Equations



I used some good old trig and GMm/r^2 to get the answers to a, which were 1.11875e-11 N and 45 degrees.

for b I really have no idea where to go with it...



The Attempt at a Solution

 

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whiteway said:
for b I really have no idea where to go with it...
Hint: What's conserved?
 
hmm...
Do I need to break the problem into vector forces with GMm/r from p to each mass and find the total force by adding those?
 
whiteway said:
hmm...
Do I need to break the problem into vector forces with GMm/r from p to each mass and find the total force by adding those?
For b you need to find the speed of the particle after it moves from its initial position (how far is that position from each mass?) to its final position at point P. Hint: Calculate the change in gravitational potential energy as it moves.
 

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