Editing Gravity (section)

===Alternative theories===
{{Main|Alternatives to general relativity}}
General relativity has withstood many [[tests of general relativity|tests]] over a large range of mass and size scales.<ref name=WillReview2014>{{cite journal | last=Will | first=Clifford M. | title=The Confrontation between General Relativity and Experiment | journal=Living Reviews in Relativity | volume=17 | issue=1 | date=2014-12-01 | issn=2367-3613 | doi=10.12942/lrr-2014-4 | pages=4 | pmid=28179848 | pmc=5255900 | arxiv=1403.7377 | bibcode=2014LRR....17....4W | doi-access=free}}</ref><ref>{{cite arXiv |eprint=1705.04397v1|last1= Asmodelle|first1= E.|title= Tests of General Relativity: A Review|class= physics.class-ph|year= 2017}}</ref> When applied to interpret astronomical observations, cosmological models based on general relativity introduce two components to the universe,<ref name="k889">{{cite book | last=Ryden | first=Barbara Sue | title=Introduction to cosmology | publisher=Cambridge University Press | publication-place=Cambridge | date=2017 | isbn=978-1-316-65108-7 | page=}}</ref> [[dark matter]]<ref name="dm">{{cite journal | last1=Garrett | first1=Katherine | last2=Duda | first2=Gintaras | title=Dark Matter: A Primer | journal=Advances in Astronomy | volume=2011 | date=2011 | issn=1687-7969 | doi=10.1155/2011/968283 | doi-access=free | pages=1–22| arxiv=1006.2483 | bibcode=2011AdAst2011E...8G }}</ref> and [[dark energy]],<ref name="de">{{cite journal | last1=Li | first1=Miao | last2=Li | first2=Xiao-Dong | last3=Wang | first3=Shuang | last4=Wang | first4=Yi | title=Dark energy: A brief review | journal=Frontiers of Physics | volume=8 | issue=6 | date=2013 | issn=2095-0462 | doi=10.1007/s11467-013-0300-5 | pages=828–846| arxiv=1209.0922 | bibcode=2013FrPhy...8..828L }}</ref> the nature of which is currently an [[List of unsolved problems in physics#Cosmology and general relativity|unsolved problem in physics]].  The many successful, high precision predictions of the [[Lambda-CDM model|standard model of cosmology]] has led astrophysicists to conclude it and thus general relativity will be the basis for future progress.<ref name=Turner-2022>{{Cite journal |last=Turner |first=Michael S. |date=2022-09-26 |title=The Road to Precision Cosmology |url=https://www.annualreviews.org/content/journals/10.1146/annurev-nucl-111119-041046 |journal=Annual Review of Nuclear and Particle Science |language=en |volume=72 |issue=2022 |pages=1–35 |doi=10.1146/annurev-nucl-111119-041046 |issn=0163-8998|arxiv=2201.04741 |bibcode=2022ARNPS..72....1T }}</ref><ref name=Intertwined-2022>{{Cite journal |last1=Abdalla |first1=Elcio |last2=Abellán |first2=Guillermo Franco |last3=Aboubrahim |first3=Amin |last4=Agnello |first4=Adriano |last5=Akarsu |first5=Özgür |last6=Akrami |first6=Yashar |last7=Alestas |first7=George |last8=Aloni |first8=Daniel |last9=Amendola |first9=Luca |last10=Anchordoqui |first10=Luis A. |last11=Anderson |first11=Richard I. |last12=Arendse |first12=Nikki |last13=Asgari |first13=Marika |last14=Ballardini |first14=Mario |last15=Barger |first15=Vernon |date=2022-06-01 |title=Cosmology intertwined: A review of the particle physics, astrophysics, and cosmology associated with the cosmological tensions and anomalies |url=https://linkinghub.elsevier.com/retrieve/pii/S2214404822000179 |journal=Journal of High Energy Astrophysics |volume=34 |pages=49–211 |doi=10.1016/j.jheap.2022.04.002 |issn=2214-4048|arxiv=2203.06142 |bibcode=2022JHEAp..34...49A }}</ref> However, dark matter is not supported by the [[standard model of particle physics]], physical models for dark energy do not match cosmological data, and some cosmological observations are inconsistent.<ref name=Intertwined-2022/> These issues have led to the study of 
alternative theories of gravity.<ref name="physicsworld">{{cite web|url=https://physicsworld.com/a/cosmic-combat-delving-into-the-battle-between-dark-matter-and-modified-gravity|title=Cosmic combat: delving into the battle between dark matter and modified gravity|date=6 February 2024|author=Keith Cooper|publisher=physicsworld}}</ref>