The gravitational force between and around 2 objects

AI Thread Summary
The discussion focuses on simplifying the problem of gravitational force between two identical spaceships. It highlights that the gravitational force cannot be analyzed separately due to the zero force point between the two masses. A suggested approach is to calculate the gravitational effects from one spaceship and then transform and sum the graphs to find the zero point. The importance of using the center of mass as a reference point for solving the problem is emphasized, particularly in dynamics and rotation. This method provides a clearer understanding of the gravitational interactions involved.
robert80
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Homework Statement


These days I am having the exam for physics 1. Could you please give me the idea, howto simplify the following exercise? You have 2 spaceships of the same shape and they are from the same material. You can have circular or eliptic spaceships for instance. Now you must draw the graph how the force is changing on the straight line between the centres of gravity.



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The Attempt at a Solution



Its surelly not possible to look at them seperatelly and simply sum the graphs as the force in the middle of them becomes 0. And there is no zero point in the centre of the masses too. Is it possible when you calculate the gravity from 1 spaceship and solve the integrals in 1 spaceship and around 1 spaceship is than possible to transform the graph and sum both graphs, that you get zero point then? How you do that? Or is there any other way to simplify this problem? Thanks
 
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by looking the centre of mass, you can seek a solution. for the bodies are same, the centre of mass (as position) remains constant. this state, can become a reference the solving problem (momentum conservation relative to the centre of mass...).
 
Ok thanks, what a brilliant solution. Havent thought of that. But its true that if you take the centre of the mass coordinate system in planty of cases is very good when doing the dynamics for instance... Or rotation. Havent thought of that in this exercise.
 

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