turning force , away

concept 1

By Henryk Szubinski

data on vector alternational response maintainements broken by vector resistance multiples as bit universe force position

reversed to process definitions towards time reversal

multi universally , well see you back in time from the stage of looking at Ourselves ,  no longer here.

Turnin

BASICALLY UNIVERSAL ELEMENT NR 1 = MINERALS

BASIS OF THE SUBSEQUENT FORMATIONS OF MINERAL BUBBLES = THE WATER H2O MUTUAL ENVELOPEMENTS OF THEIR PROCESS TYPE1,2,3 AS IN THE UPWARDS VECTOR SIMILAR TO THE RESOURCE OF FORCE FIELDS IN THE MOTION AGAINST GRAVITY

This operation is one of the most basic machining processes. That is, the part is rotated while a single point cutting tool is moved parallel to the axis of rotation.^[1] Turning can be done on the external surface of the part as well as internally (boring). The starting material is generally a workpiece generated by other processes such as casting, forging,extrusion, or drawing.

Tapered turning

a) from the compound slide b) from taper turning attachment c) using a hydraulic copy attachment d) using a C.N.C. lathe e) using a form tool e) by the offsetting of the tailstock – this method more suited for shallow tapers^[2]

Spherical generation

The proper expression for making or turning a shape is to generate as in to generate a form around a fixed axis of revolution. a) using hydraulic copy attachment b) C.N.C. (computerised numerically controlled) lathe c) using a form tool (a rough and ready method d) using bed jig (need drawing to explain)^[2]

Hard turning

Hard turning is a turning done on materials with a Rockwell C hardness greater than 45. It is typically performed after the workpiece is heat treated.^[3]

The process is intended to replace or limit traditional grinding operations. Hard turning, when applied for purely stock removal purposes, competes favorably with rough grinding. However, when it is applied for finishing where form and dimension are critical, grinding is superior. Grinding produces higher dimensional accuracy of roundness and cylindricity. In addition, polished surface finishes of Rz=0.3-0.8z cannot be achieved with hard turning alone. Hard turning is appropriate for parts requiring roundness accuracy of 0.5-12 microns, and/or surface roughness of Rz 0.8–7.0 microns. It is used for gears, injection pump components, hydraulic components, among other applications.^[3]

Facing

is part of the turning process. It involves moving the cutting tool at right angles to the axis of rotation of the rotating workpiece.^[1] This can be performed by the operation of the cross-slide, if one is fitted, as distinct from the longitudinal feed (turning). It is frequently the first operation performed in the production of the workpiece, and often the last- hence the phrase “ending up”.

Parting

This process is used to create deep grooves which will remove a completed or part-complete component from its parent stock.

Grooving

is like parting, except that grooves are cut to a specific depth by a form tool instead of severing a completed/part-complete component from the stock. Grooving can be performed on internal and external surfaces, as well as on the face of the part (face grooving or trepanning).

Non-specific operations include:

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26 Mar 2010 … sphere angle reverse vector universe common vector force ….. can be vectorised into basic 1 value displacements or they can be broken:into atomic and subatomic relations …. Hints of multiple universes, however, were given by a … the process resistance continuiim = to the data on process FORCE …

WHAT DEFINES A BASIS OF WARP RELATIONS TO A TRIANGULATION OF FORCE EVENTS IN PULSATION

JUST LIKE THE FIZZ IN A SODA POP THE AMOUNT OF FIZZ IS FLATTENED

similar excess

In chemistry, the limiting reagent, also known as the “limiting reactant“, is the chemical that determines how far the reaction will go before the chemical in question gets “used up”, causing the reaction to stop. The chemical of which there are fewer moles than the proportion requires is the limiting reagent.

THE SAME 2 STAGE PROCESS THAT DEFINES THE ADDITIONAL 2 STAGE REACTIONS BY THE SAME VALUE SIMILAR TO A EVENT USING UP THE SAME AMOUNT OF FORCE AS IS RESULTANT IN THE SAME PROCESS.

DARK MATTER RINGS

Limiting reagent formula

There is a much simpler formula which can be used. However, you must first calculate the moles of both of the reagents in the reaction. Once the number of moles have been figured out, just simply fill in this equation (reagent 1 being the first reactant and 2 being the second):

When the answer to the formula is less than zero, reagent 1 is the excess reagent. When the answer is larger than zero, reagent 1 is the limiting reagent. The number shows how much in excess one reagent is from another. If the answer for the formula is zero, both reagents are perfectly balanced. The unit of an answer is in moles.