defined processess
By Henryk Szubinski
a new system of defining the processess of the top view section as using force vector verticality of the interactions similar to the process of tension when the sections are in action by lift of the lower image as being in a similar position to alter the image differences as the sections that are active in lift by action &/or reactions of the force lines of force as interactiong to displace the sections connected.
making comparative sense out of sectionals seperated by gravity or height: also the values of Force derived by the changees in height or gravity based data formulations such as enthropy or interiality of escape velocities .
continuing to draw the vector verticies into the sections of projective sense and know how of the Newtonian examples of gravity acting on a fllen body:
Under an assumption of constant gravity, Newton’s law of universal gravitation simplifies to F = mg, where m is the mass of the body and g is a constant vector with an average magnitude of 9.81 m/s². The acceleration due to gravity is equal to this g. An initially-stationary object which is allowed to fall freely under gravity drops a distance which is proportional to the square of the elapsed time. The image on the right, spanning half a second, was captured with a stroboscopic flash at 20 flashes per second. During the first 1/20th of a second the ball drops one unit of distance (here, a unit is about 12 mm); by 2/20ths it has dropped at total of 4 units; by 3/20ths, 9 units and so on.
Under the same constant gravity assumptions, the potential energy, Ep, of a body at height h is given by Ep = mgh (or Ep = Wh, with W meaning weight). This expression is valid only over small distances h from the surface of the Earth. Similarly, the expression 
for the maximum height reached by a vertically projected body with velocity v is useful for small heights and small initial velocities only.
using aucoustic ressonance for comparatives with resultances = to the formats of differences in general vechicle formats as = to the new formats of vechicles such as spaceships using the force of motion through space by using ressonance in the COBE background radiations of the universe.
using the actual gravity differences of planetary applications of the derived formats of vectorisations = common values of sustainability such as water and gravity for type 1 H2O:
using the deep field to compute differences between objectives in motiion to define what levels sustain the interactive values generated.
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