D A T A     I N     A     U N I V E R S E  F U L L    O F    I T

By Henryk Szubinski

“if youre going to start in the middle of everything you’ ll miss the place thats waiting..”

basics of data on how the basis of the most effected revision of data monitors on sections with the

basic data multiple /multiplications = defined data certainty on process = DEFINED

as value – variant = basis of most popular comnputer quant programmes———->x lim

= f.F root x quant …

the basis of such high definitions process do not as yet exist in the modality of translator

in data languages

 

droids in the alternations of languages with the basis of certainty based on reciprical actions of forwards

In Motte’s 1729 translation (from Newton’s Latin), the second law of motion reads:[11]

LAW II: The alteration of motion is ever proportional to the motive force impressed; and is made in the direction of the right line in which that force is impressed. — If a force generates a motion, a double force will generate double the motion, a triple force triple the motion, whether that force be impressed altogether and at once, or gradually and successively. And this motion (being always directed the same way with the generating force), if the body moved before, is added to or subtracted from the former motion, according as they directly conspire with or are directly contrary to each other; or obliquely joined, when they are oblique, so as to produce a new motion compounded from the determination of both.

Using modern symbolic notation, Newton’s second law can be written as a vector differential equation:

\mathbf F = {\mathrm{d}(m \mathbf v) \over \mathrm{d}t} = m \ \frac{\mathrm{d} \mathbf v}{\mathrm{d}t}

where F is the force vector, m is the mass of the body, v is the velocity vector and t is time.

The product of the mass and velocity is momentum (which Newton himself called “quantity of motion”). Therefore, this equation expresses the physical relationship between force and momentum for a body with constant mass. Because the law describes the motion of bodies of constant mass only,[12][13][14] the mass can be moved outside the differential operator. The equation implies that, under zero net force, the momentum of a body is also constant. However, any mass that is gained or lost by the body will cause a change in momentum that is not the result of an external force. This equation does not hold in such cases. See open systems.

It should be noted that, as is consistent with the law of inertia, the time derivative of the momentum is non-zero when the momentum changes direction, even if there is no change in its magnitude. See time derivative.[15]

By substitution using the definition of acceleration, this differential equation can be rewritten in a more familiar form

\mathbf F = m \mathbf a

where

\mathbf a = \frac{\mathrm{d}\mathbf v}{\mathrm{d}t}.

A verbal equivalent of this is “the acceleration of an object is proportional to the force applied, and inversely proportional to the mass of the object”. In general, at slow speeds (slow relative to the speed of light), the relationship between momentum and velocity is approximately linear. Nearly all speeds within the human experience fall within this category. At higher speeds, however, this approximation becomes increasingly inaccurate and the theory of special relativity must be applied.

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on whats terminally usable by governance over basic sub units of usage as force fields on root quantal values of light sabres

and fase into wear terminology by basis B = sub levels of quant computer work outs in immersive computer interactions=

levels of low data clarity ————->clarifications and verified data = hazzard monitor.. ( usage of language)…

sections of data on why and the displacement responses to pre indicative data on the pulse = propulse by projective root action.

And varainace of the special value vechicle formattings of data on dispalce by motivated references of a clip section CLIPP OFFF a F/E relationship with S /r

as the data on the 1/root 3 = x value of a 3 value formulative involvements with such high definitionings that the K.E =K / root E

(m.g.h)root x.

on the basis of a high displacement pulse 1 = high velocity of the responsive …the formating of a miss in data connections of the values to reconnect..