Theory
This page will outline some candidate theories of operation (or non-operation).
Today, while I was at work, my sister stole my apple ipad and tested to see if it can survive a 30 foot drop, just so she can be a youtube sensation. My apple ipad is now broken and she has 83 views. I know this is entirely off topic but I had to share it with someone! gkkekdbdkafdegkd
Contents
Debunking Theories
These theories should be explained, then debunked with the simplest explanation, with a link to a dedicated page to show the work or work in progress that backs up that explanation.
Energy and Momentum Conservation
If the EM Drive produces constant-acceleration it will violate Energy Conservation.
It may also violate Momentum Conservation.
EM Drive may not violate the Conservation Laws in the instance of producing a pair of neutrinos (neutrinos born in EM deexitation EW process through E0 transition inside the resonator). It is known that the correlation angle of the two neutrinos in the lab system would be 60 deg. [Montoya-93], so an unbalanced force would appear, since neutrinos escape without interaction. Unfortunately, this statement is not easy to prove in an experiment.
Exact Standing Wave Solution of Maxwell's Equations
On 8/5/14, Greg Egan posted an exact solution for the resonant modes (for modes having constant electromagnetic field variation in the azimuthal direction, such that m=0) of a cavity in the shape of a truncated cone with spherical ends. Egan also calculated the forces and showed a proof that the net force is zero and therefore that there is no thrust force in a resonant electromagnetic cavity of any arbitrary shape, for any arbitrary mode shape, when the cavity is analyzed according to the standing wave solution of Maxwell's equations (assuming no sources or sinks in the cavity).
Experimental Artifacts
This assertion is that all positive experimental results are results of artifacts, such as:
- Measuring error
- Thermal effects
- Mechanical vibration
- Magnetic effects with environment
These are discussed in more detail at Possible Error Sources.