Stories
Slash Boxes
Comments

SoylentNews is people

Submission Preview

Link to Story

Physicist Uses "Quantised Inertia" to Explain Both EmDrive and Galaxy Rotation

Accepted submission by takyon at 2017-02-14 22:59:57
Science

A physicist is using a theory he advanced to explain how EmDrive could work to explain how dwarf galaxies can be held together [ibtimes.co.uk] without the requirement of dark matter:

British physicist Dr Mike McCulloch, who previously used quantised inertia to explain how the controversial electromagnetic space propulsion technology EmDrive works, says that he has new evidence showing his theory can also explain galaxy rotation, which is one of physics' biggest mysteries. McCulloch, a lecturer in geomatics at Plymouth University's school of marine science and engineering, says he now has even more evidence that his "new physics theory" about quantised inertia works, and that it makes it possible to explain why galaxies are not ripped apart without using theory of dark matter.

[...] There are 20 dwarf galaxies in existence from Segue-1 (the smallest) to Canes Venatici-1 (the largest), and dark matter is only meant to work by spreading out across a wide distance, but it is still used to explain dwarf galaxies, even though this requires dark matter to be concentrated within these systems, which is implausible. Instead, McCulloch asserts that quantised inertia can be used to explain how galaxies rotate without using dark matter, and he has written a paper that has been accepted by the bi-monthly peer reviewed journal Astrophysics and Space Science.

Reprint of the IBT link here [yahoo.com].

From the abstract of Low-acceleration dwarf galaxies as tests of quantised inertia [researchgate.net] (DOI not yet published):

Dwarf satellite galaxies of the Milky Way appear to be gravitationally bound, but their stars' orbital motion seems too fast to allow this given their visible mass. This is akin to the larger-scale galaxy rotation problem. In this paper, a modification of inertia called quantised inertia or MiHsC (Modied inertia due to a Hubble-scale Casimir effect) which correctly predicts larger galaxy rotations without dark matter is tested on eleven dwarf satellite galaxies of the Milky Way, for which mass and velocity data are available. Quantised inertia slightly outperforms MoND (Modied Newtonian Dynamics) in predicting the velocity dispersion of these systems, and has the fundamental advantage over MoND that it does not need an adjustable parameter.

Previously: Study Casts Doubt on Cosmic Acceleration and Dark Energy [soylentnews.org]
Dark Matter Beats its Latest Challenge [soylentnews.org]
Emergent Gravity and the Dark Universe [soylentnews.org]
Space Race 2.0: China May Already be Testing an EmDrive in Orbit [soylentnews.org]
Milky Way is Not Only Being Pulled—It's Also "Pushed" by a Void [soylentnews.org]


Original Submission