Gravitational Waves, Pulse, And Impedance

Gravitational waves tend to work to form the general effect of an "inertia-related pulse."  Let us initially consider a mass-bearing orbifold eigneset; that is here to be moving at an initial velocity, over an initially proscribed time. The said orbifold eigenset, is here to be initially moving in a theoretical environment, that is here to bear no gravitational influence upon the said eigenset.  After the stated initially proscribed time, the force of  gravity is then to become eminent upon the stated orbifold eigenset.  When the thus stated "inertia-related pulse," that is here to be formed, as that influence that is here to act as the effect of the motion of such gravity, is to be applied upon such an inferred Noether-based mass-bearing orbifold eigenset, in a holomorphic manner -- over an evenly-gauged Hamiltonian eigenmetric, such a general tense of a directed "inertia-related pulsation," is thence to tend to form a general genus of an impedance upon the said mass-bearing orbifold eigenset, -- to where the thus mentioned eigenset of this particular general case, will then tend to have a more difficult time at moving at its initial rate than it did -- prior to the application of the force of gravity upon it.  Sincerely, Sam Roach.