Talk:Breakthrough Propulsion Physics Program/Dumping ground

The diametric drive is a hypothetical engine^[1] which would create a non-conservative gravitational field with non-zero curl ^{[citation needed]}. It was argued that in such circumstances, the side of the field which creates more force on the spacecraft will accelerate the spacecraft in the direction of the force.

One idea for realizing this concept involved hypothetical particles with negative mass, originally proposed by Robert Forward ^[2][3] and James Woodward^{[citation needed]}. If one were to construct a block of negative mass, and then attach it to a normal "positive" mass, the negative mass would fall towards the positive as does any mass toward any other. On the other hand, the negative mass would generate "negative gravity", and thus the positive mass (the spaceship itself generally) would fall away from the negative mass. If arranged properly, the distance between the two would not change, while they continued to accelerate forever. It has been argued^{[by whom?]} that stability issues might arise.

The concept is illustrated according to Millis^[2] by:

${\displaystyle V=(-m){\begin{bmatrix}{\frac {-G}{\sqrt {(x+d)^{2}+y^{2}}}}\end{bmatrix}}}$ ${\displaystyle +(+m){\begin{bmatrix}{\frac {-G}{\sqrt {(x+d)^{2}+y^{2}}}}\end{bmatrix}}}$

where:

${\displaystyle V\!}$ is the gravitational scalar potential

${\displaystyle G\!}$ is Newton's gravitational constant

${\displaystyle m\!}$ is normal mass

${\displaystyle d\!}$ is distance