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  Does a positive cosmological constant increase or decrease gravity?

+ 1 like - 0 dislike
2090 views

In de Sitter space with a positive cosmological constant $\Lambda$, it is usually said that gravity is smaller than the value given by $1/r^2$, because $\Lambda$ *reduces* the attraction of masses at large distances.

However, many people (Verlinde, Milgrom, etc.) argue that a positive $\Lambda$ *increases* gravitational attraction at large distances. For example, MOND (with its new constant $a_0$) conjectures a higher gravitational attraction than $1/r^2$ (at large distances).

How can this apparent contrast be resolved?

asked Jun 22, 2020 in Astronomy by Christian (35 points) [ revision history ]
recategorized Jun 22, 2020 by Christian

Mond doesn't provide a valid illustration, a0 is not the gravitational constant.

Verlinde and Milgrom likely said that given some observational data and working on fitting, if you raise the cosmological constant, you would need to raise also the 'gravitational attraction'. Could you provide references to their exact claims?

 

commented Aug 10, 2020 by igael (360 points) [ no revision ]

1 Answer

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MOND is not a replacement for dark energy but for dark matter, so of course that leads to a higher attraction. A cosmological constant has to do with dark energy and leads to an extra repulsive term so instead of ȑ=-GM/r² we have ȑ=-GM/r²+Λc²r/3

answered Jul 22, 2020 by Yukterez (10 points) [ revision history ]
edited Jul 23, 2020 by Yukterez

This is exactly what was written in the question. This is not an answer.

commented Jul 28, 2020 by Christian [ no revision ]

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