Derivative synopsis

Table of Contents Introduction and Summary The derivative is the first of the two main tools of calculus the second being the integral. The derivative is the instantaneous rate of change of a function at a point in its domain. This is the same thing as the slope of the tangent line to the graph of the function at that point. In order to give a rigorous definition for the derivative, we need the concept of limit introduced in the preceding section.

Derivative synopsis

C-CI The connection between Energy Conservation and Causality-Information or free and bound electromagnetic energy - as seen in massless light vs massive particles.

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Raw energy conservation expressed through the conversion of free energy Derivative synopsis the mass and momentum of particles, as in the creation of matter during the "Big Bang" or more simply and commonly, the capture of photons by the electron shells of atoms.

It is the transformation of free to bound energy and vice versa which is the central process of the Cosmos and the " Tetrahedron Model ".

The proclivity of light to interact with electrically charged particles and to conserve its energy in the bound form of particle mass, momentum, and electronic shells and configurations, is the basis for the existence of the material realm of particulate matter, and its highest and most complex expression, life including photosynthesis.

Neutrinos, by contrast, hardly interact with matter at all; "dark matter" if it exists apparently interacts only gravitationally. The basic unit of energetic information recorded in the transformation of light to matter is the quantity of energy involved, reflected in the mass, momentum, kinetic energy, and "excitation" of Derivative synopsis, and the "location" charge of gravitation Gm.

Responding in accordance with "Noether's Theorem" to the breaking of light's "non-local" symmetric energy state by the conversion of free to bound energygravity records the spacetime location of mass by the "warpage", "curvature", or "acceleration" of the spacetime metric.

Gravity immediately creates matter's time dimension by the conversion of space to time gravity's entropy conservation roleand eventually conserves light's "non-local" distributional and metric symmetry by the conversion of mass to light in stars, supernovas, quasars, and Hawking's "quantum radiance" of black holes gravity's symmetry conservation role.

It is charge conservation through time and the services of alternative charge carriers that allows the breaking of light's symmetry in the "Big Bang".

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The primordial example of the conversion of massless light to massive atomic matter occurred via weak force symmetry-breaking during the "Big Bang" - the creation of our "matter only" cosmos - presumably by the asymmetric weak force decay of electrically neutral leptoquarks.

While the raw energy of light was stored in the mass and momentum of matter-only particles, the symmetry of light was stored in the alternative and conserved form of charges see S - CI belowand the entropy of light was stored in the alternative form of time and gravitation see E - CI below.

Charge conservation is an alternative means of conserving symmetry and extending the conservation function into the time or historic dimension in contrast to the inertial forces of the spacetime metric, which also conserve symmetry, but which have no mechanism allowing deferment in time - just the difference between a credit card and a cash payment.

The charges of matter are the symmetry debts of light. Information is conserved as charge, and in historic spacetime as matter's "causal matrix" - upholding the "Universal Present Moment" of bound energy with a universal network of causal relations.

Because of gravity, the location of all bound energy forms is recorded by the warpage of spacetime; because of the charge of the neutrino, the identity and number of every elementary particle is known; and because of the causal linkages of time, every "event" is immortalized in historic spacetime - the conservation domain of information and matter's "causal matrix".

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The Universe is indeed a dimensional, entropic conservation domain for information and electromagnetic energy in all its forms. Because certain types of symmetry can be conserved through time in the form of charge, matter can have an historical and necessarily causal dimension, unlike light which bears no charges and is both a-temporal and a-causal.

Unlike raw energy and entropy debts, which must be paid immediately, symmetry debts when in the form of conserved chargesconstitute the "credit card" of the Cosmos - "buy now, pay later". Gravity pays the "interest" on the symmetry debt of matter through the deceleration of the cosmic expansion via the gravitational conversion of space to time converting spatial to temporal entropy - the intrinsic motion of light to the intrinsic motion of time.

It is therefore the entropy drive of free electromagnetic energy light and the expansion of space which through gravity funds the entropy drive of bound electromagnetic energy matter and the expansion of history.

The charges of matter symmetry debts are eventually paid by matter-antimatter annihilations, the conversion of bound energy to free energy in stars, supernovas, quasars, and Hawking's "quantum radiance" of black holes, and by particle and proton decay.

The Information domain is unique in that the universe can explore and expand this domain almost without limit, especially in the realm of biology. In humans, the cosmos seems to be building a co-creator, capable of making artificial universes in his head, his books and movies, his computers.

Who knows where this will eventually lead think Star Trekbut the Information Domain is definitely the creative center of the universe.

We may be sure that planet Earth is not the only locus of this universal creative energy, which we may rightfully regard as sacred. Fermions are the surviving matter half of light's particle-antiparticle form: The charges of matter are the symmetry debts of light - Noether's Theorem.

Charge conservation is a temporal form of symmetry conservation - made possible by the creation of the historical domain through the gravitational conversion of space to time. Fermions comprise the 92 naturally occurring elements, the information base of matter, created in the "Big Bang" and by the nucleosynthetic pathway in stars and supernovas.

Charges are held in the time or historical dimension where they are balanced or neutralized until they can be annihilated or otherwise canceled by their corresponding antimatter charges. Charge conservation is moot in the absence of a time dimension, as the mutual annihilations of virtual particle-antiparticle pairs attests.

This line in the "Tetrahedron Model" is essentially the linkage between Causality and the source of Information, as Information in the form of charge is primarily supplied from the Symmetry pole, beginning with fermions, atoms, and charge conservation.Objective Of the Project: The Project undertaken will try to comprehend on granular level the array of Derivative products available in the OTC as well as Exchange market, their constitution, usages and their Pros and cons.

1 Currency Derivatives - Synopsis - Download as Word Doc .doc), PDF File .pdf), Text File .txt) or read online.


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Derivative synopsis

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The derivative has many interpretations and applications, including velocity (where f gives position as a function of time), instantaneous rate of change, or slope of a tangent line to the graph of f. Jul 03,  · The Miniaturist has 90, ratings and 10, reviews.

Derivative synopsis

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