Where will two objects of different masses meet in space?

AI Thread Summary
Two objects of different masses, 3kg and 7kg, are released from a distance of 10 meters in space and will meet due to gravitational attraction. The location of their meeting can be determined using the center of mass formula, which requires calculating r1 and r2 in relation to the masses. The challenge arises from needing to establish two equations to solve for three variables, including the total distance r. It is suggested to set the origin at the position of the 3kg mass to simplify calculations. Ultimately, the meeting point can be accurately found by applying the center of mass concept regardless of the chosen origin.
Dumbledore211
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Homework Statement



Two objects of mass m=3kg and M=7kg are held at a distance of 10 meter in space and then released. They move towards each other due to mutual gravitation attraction. Determine the location of their meeting of the object mass m

Homework Equations



r= mr1+ Mr2/m+M

The Attempt at a Solution


The objects will meet at their center of their mass. What I am finding difficult to understand is the method of finding out r1 and r2 with respect to m from the given information
 
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You have two variables r1 and r2 ... so you need two equations.
The other one is r=r1+r2
 
We really don't know the value of r which means there are actually three variables. I have tried to solve it by using your method but 2 equations won't suffice in this case. We need one more equation
 
Dumbledore211 said:
We really don't know the value of r which means there are actually three variables. I have tried to solve it by using your method but 2 equations won't suffice in this case. We need one more equation

You can find the center of mass using the equation:

x_c=\frac{\sum{mx}}{\sum{m}}

Take as x = 0 as the initial location of mass m.
 
You mean I should take r1=0 @Chestermiller
 
Dumbledore211 said:
You mean I should take r1=0 @Chestermiller
Yeah, although it doesn't really matter. Take the origin anywhere you want. The answer will come out the same (in terms of the distances from each of the two masses).
 

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