Course 6, Session 4, Part 1, Superstrings As Toroidal Phenomena

Well hello world, this is Samuel Roach here!  How are you doing?!  Please feel free to comment on my blog.
What draws the tori-sector-ranges together into a circular-like entity that helps to form the Ultimon?  It takes bonds to form a whole, entire thing.  Look at earth.  It is a whole, entire thing, yet, it is only one small part of a whole, entire universe.  What is the Ultimon?  The Ultimon is that fabric of the space-time-continuum that makes it capable of providing the appearance of having a three-dimensional delineation.  Remember that the three-dimensional appearance of the universe is called the globally distinguishable, and that the globally distinguishable is due to superstrings differentiating relative to the Bases of Light.  Fourier differentiation is change during succeeding metrics.  A metric is when you have a sequence that changes in combination relative to itself in some sort of flow that is noticeable as a whole result by any source from within the Ultimon after any sort of succeeding direction.  Metrics that coincide will be what we will here call forward, real time (the measurement of what is known as linear time), & these metrics are the thus caused results that are usually dependant on all of the directly past and future results that act upon the sequences of these metrics.
I will end this part of this session with a question that you may ponder in such a fashion so as to be prepared for the second part of this session.:  What is the basis of measuring duration both in terms of the sequence of particular instantons as well as the individual motions that happen in-between instantons?             
This should be enough food for thought for now.         
Sincerely,
Sam.

Course 6, Session 3, Part 2

Well hello again world, this is Samuel Roach here!  How are you?  I hope that you are following along pleasingly.
So, as I was last saying, the substringular phenomena in the "rings" or "hoops" of the physical space-time-continuum are basically infinitely smaller that the Continuum as a whole.  Likewise, the annulus of the toroidal disc that comprises the center of physical space and time is quite smaller than the Continuum as a whole.  The holonomic substance of the Continuum is outwardly concave in retrospect, yet the said curvature curves inward toward the annulus that is at the center of the physical portion of space and time.  This is because the potential energy that causes the energy of the space-time-continuum to exist exists in a primordial manner at the said relatively small void at the center of the said toroidal disc, just as the charge in the center of a conductive shell exists only demonstratively at the outer surface of the said shell.  The sectors of this "donut" that has a very thin substance have a shape of "parallelograms" during the sub-metric that happens during the course of the Bases of Light.  Such  parallelogram-like regions curve energy so slightly so as to eventually form the three given rings' basis of permittivity over the course of the duration in-between each instanton.  The reason for the really slight bend in these parallelograms is the substringular gravity which is applied to them.  The fact that all phenomena has radial symmetry helps to explain why the space-time-continuum exists in the said "rings" or "hoops."  The fact that reality exists in a ring-like or hoop-like fashion shows why the "parallelograms" of tori-sector-ranges pull in on each other.  I will explain more of this during the course of the next lesson.  I hope that my instructions that explain such minute phenomena is forming a similiar picture in your mind as it does to me.
Until later, you have a phenomenal day!  Sincerely, Sam.             

Course 6, Session 3, Part 1

The "infinite" world-toroid, when theoretically extrapolated, may be viewed as a donut-shape that defines the general physical parameters of the whole space-time-continuum.  When I say the whole space-time-continuum, I mean all three sets of parallel universes as a unit.  This form of a "donut" has edges that are very thin, and these edges stretch out as a circle to quite a vast expanse.  This thin-edged "circular" toroidal disc is composed of individual sections that traverse all of the way from one spot back to that same general spot during conformal invariance after traveling among a total of three "rings."  Let me elaberate:  The "donut" is composed of three rings.  Each ring has corresponding rings within this. These rings respond to each other toward the annulus of the said toroidal-disc, since the substances that comprise the eigenbases of the said eigenhoops or eigenrings are very small when compared to the sum of physical space.
I believe that this is enough food for thought for right now.  I hope that you have a phenomenal day!
Sincerely,
Sam.        

Course 6, Session 2, Part 2, Strings As Toroidal Phenomena

Well hello again world, this is Samuel David Roach here!  I am about to continue with my session that teaches others more about what I call the "Royal Arc."
So, the world-toroid, which is tantamount to the existence of the Ultimon is thus tantamount to the whole existence of physical space and time, and such an "infinite" world-toroid is thus tantamount to the existence of space and time, period.  This "infinite" world-toroid has a majorized half-circle basis that circles each individual set of parallel universes on both the basis of forward moving time and the basis of backward moving time, respectively.   (One Arc or world-toroid eigenbasis encapsolating each individual set of parallel universes at both the side which defines forward moving time as well as the side which defines backward moving time, which would define there to be two sets of three of such Arcs.)  These majorized half-circles loops are what contain most of the norm-states of the physical Continuum.  Light that we see in our Continuum is recycled indirectly on account of this multiplicit Arc, and such Arc eigenbases indirectly allow light to exist in the Main world-sheets or the Main world-tubes, due to the condition of ground states recycling into norm states as well as norm states recycling into ground states in a manner that produces indistinuishable differences to the observation of one examining the Laplacian and Fourier conditions of such described sub-atomic phenomena.  The said majorized half-circles that I am describing each connect two stringular world-sheets.  The relative top majorized half-circles (the majorized half-circles that relate to forward moving time, which is thus considered to exist in the norm-to-holomorphic position relative to an outward observer) connects the said relative top stringular world-sheets, while the relative bottom majorized half-circles (the majorized half-circles that relate to backward moving time, which is thus considered to exist in the norm-to-antiholomorphic position relative to an outward observer) connects the said relative bottom stringular world-sheets.  The stringular world-sheets plus the majorized half-circles, the Main Heterotic String Fabric, plus the substringular encoders, are the Basis of the Ultimon.  Each of such majorized half-circles is an eigenbasis of the Royal Arc. Thank you for your time.  I am very greatfull  for my readership.  You have a phenomenal day!
Sincerely, Sam.                             

Course 6, Session 2, Part 1

Well hello world, this is Samuel David Roach here.  This session is on the Royal Arc.
Where is light most of the time?  Is light thrown, or is it placed like pickets in a picket fence?  Light is propagated through space.  When light is propagated, it is placed one hbar (in terms of radial motion) and/or one Planck distance (h, in terms of llinear motion) at a time in the direction in which it is propagated.  Well then, where does this light come from?  Light comes from the Ultimon, and more specifically, from the Main World-Toroid.  The Main World-Toroid is "infinite" when compared to an index of a third-ordered-point paraticle, yet it  is not actually infinite, since it has boundaries.  It is like this:  No matter how many zeroes you add to the given number, the main world-toroid is larger than an index of a third-ordered-point particle.  So, the world-toroid described, which is tantamount to the Ultimon -- is also tantamount to the whole space-time-continuum.  The Main World-Torroid that I am describing is the holonomic interconnection of all of the Main World-Tubes that comprise where superstrings and Planck phenomenon related phenomena differentiate both in a Laplacian and in a Fourier manner.  So, in this sense, the critical activity that acts, produces, and responds in such a manner so as to allow for the energy of physical space and time produces a covariant kinematic relationship that makes the "Infinite" World-Toroid in a sense the fundamental Basis of the existence of physical space-and-time.                                                                                            
Yet, phenomena of one set of parallel universes is to generally stay in that said set of parallel universes.
Too much superfalous intermeshing of the realities of the three sets of parallel universes is a no-no, since this could dammage space-time-fabric.  This is why, in a sense, the kinematic operation of physical space-time-fabric is not exactly to be described as an infinite world toroid.  I have no idea how such a danger could happen anyway, and even so, you could never get me to damage my happy home of space-time-fabric.
So, in a sense, the most important thing is the general wellfare of universal legacy.  If this means to up-the-anty on intergalactic rulings, so let it be.  I am here to help.  I will continue with some of the suspense later, yet, I will drop the prior confidential implifications.  You have a phenomenal day!  Sincerely, Sam.

Course 6, Session 1, Part 2, Superstrings As Toroidal Phenomena

Well hello again world, this is Samuel Roach again!  I hope that everything is o.k. with you!
The reason why certain point particles do not always form as strings within their home tori-sector-ranges is becauses some point particles are residue that is about to be integrated into the substringular phenomena.  When light brings in nodes as ripples OR releases rippled nodes within the Basis of Light within a moment, these extra nodes do not exist within strings, yet these nodes are about to be incorporated into superstrings or relaeased into the general point particle stratum of their "home" sector-ranges.  If the rippled nodes are released residue that flows into the stratum of the point particles of a tori-sector-range, then the point particles of the said sector-range will mold the nodes so that these will eventually form as strings (superstrings) -- yet not necessarily as superstrings of that sector.  If a node is rippled toward the strings of an instanton-quaternionic-field-impulse-range during a moment, then this node will help to form a superstring during a later iteration.  The more iterations of the Ultimon that happen, the more point particles that find a "home" in any given tori-sector-range.  Many point particles find a "home" in any given tori-sector-ranges over the Fourier Transformation of a sequential series of instantons.  Certain point particles may never find a home in more that one tori-sector-range.  Since all residue is used, all point particles eventually have a home tori-sector-range.  Home-Tori-Sector-Ranges help to perpetuate existence so that the layers of the reality of individual universes are not scattered to the point of disorientation.  Such orientation is partially due to the Bette Action that orientates superstrings with their counterparts via the Laplacian Poincaire condition known as the Grassman Constant, which happens during instanton.  The existence of the Bases of Light and the existence of the Space-Hole, as well as the Laplacian Ward Caucy codifferentiation between the Bases of Light and their corresponding supserstrings, as well as the "space-hole", and even as well as the condition that each Basis of Light has a different Laplacian topological surface-based trajectory along with the fact that the Basis of Light that equally involves forward and backward moving time flow is always the main kinematically based Basis of Light -- effects the condition that superstrings and point particles of a specific Hodge nature have a tendency of "wanting" to belong to their home-tori-sector-range.  I will continue with the suspense later!                                                               
To me, these posts utilize more imagination and cognitions than most of the other things that I am willing to talk about.  I sure hope that you have a marvalous day!  What a phenomena!  Sincerely, Sam.

Course 6, Session 1, Part 1, Strings As Toroidal Phenomena -- Lesson on "Home-Tori-Sectors"

Points particles are constantly flowing through the Ultimon.  first-ordered point particles are separated by more distance than the sizes that make these up.  Point particles are slowed and/or spead up  in certain tori-sector-ranges.  If the said point particles are slowed or spead up in a tori-sector-range during a relatively small number of  instantons, than this tori-sector-range at that progression is their HOME TORI-SECTOR-RANGE.  A home tori-sector-range is typically a tori-sector-range where the points that are "home" exist as strings. If a set of point particles are "home" in a tori-sector-range, yet do not form strings in that "range" during a particular iteration, than these point particles may form strings within a relatively short duration within that sector-range during a different covariant brief Fourier metric.  The reason why certain point particles do not always form as strings within their home tori-sector-ranges during any spontaneous codifferentiable Fourier activity that involves the process of substringular recycling  is because such points are residue that is about to be integrated.  When light brings in nodes as ripples OR when light releases such rippled nodes within the Basis of Light within a moment, these extra nodes do not exist within strings, yet, these nodes are about to be incorporated into strings or released into the general point particles stratum of their "home" sector.                                      

Solutions To Last Test Of Course 5

 Hello there World,  this is Sam Roach here!  Here are the solutions to yesterday's test.

1)  The bringing together of mini-string to allow for the tight regions of substringular fields that form the first-ordered point particles of superstrings is a substringular example o a compactification that involves Yakawa Couplngs.  This is because the exterial Gliossi touch of mini-string activity here causes such a condition of compactification.

2)  Humans touching life forms, people holding onto a writing utensil, and people rubbing their foot on the floor are reverse fractored metaphorical examples of "Yakawa Couplings."

3)  Trash being smushed in a trash compactor is a good example of compactification.  The elimination of the spaces in-between the stough here that is smushed, to where the overall said stough takes up less space, is the process of an arbitrary example of compactification.

4)  Waves may become color indirectly via Imaginary Tangency.  Imaginary Tangency is touch that involves four or more dimensions that thus involves freedom of motion that utilizes 4piI degrees of freedom of motion or more in terms of the process of certain subatomic touch, rub, and curl.

5)  Light "catches" strings via the inter-relation of the Bases of Light with their corresponding superstrings during the sub-metric that comes right before instanton-quaternionic-field-impulse-mode.

6)  Right after homotopy begins to almost break at the end of what I call the "space-hole", the substringular encoder potentials of each tori-sector-range "mold" to form the holomorphic entity of one substringular encoder that exists during the Laplacian Condition of one instanton to allow for the relationship of superstrings with their corresponding mini-bases during instanton.  The metric in which mini-bases and their related superstrings spread to their proper delineations forms the said ripples, which may be described via the mapping of the fifteen categories of ghost anomalies that arbitrarily exist per instanton.
                          
I hope that you did well!  What makes a correct solution may vary, in so long as the concepts are right.
Sincerely,
Sam.

Test Questions To Last Test Of Course 5

1)  Give two substringular examples of Yakawa Couplings.

2)  Give some reverse-fractored human examples that associate with the idea of Yakawa Couplings.

3)  Give a good example of compactification.  Explain the compactification here.

4)  How may waves interact to become color?

5)  How does light "catch" superstrings?
     
6)  Explain instanton-quaternionic-field-impulse ripples.

A Little Bit More Explaination As To The Construction of the World-Tubes

Well hello again world, this is Sam Roach here!  I hope that you are enjoying my physics writings!
The "world-tubes" that involve forward moving time are interconnected via the Lagrangian-based majorized annuli that connect the adjacent of such tubes in an interior directed sense. Such annuli are existent at the interior center of such "world-tubes."
The "world-tubes" that involve backward moving time are interconnected via the annuli that connect the adjacent of such tubes in an interior directed sense.  Such annuli are existent at the interior center of such "world-tubes." 
The "world-tubes" of the substringular encoders are interconnected with the world-tubes of superstrings -- one of such encoder tubes per two forward moving time involved tubes that correspond to one set of parallel universes, and one of such encoder tubes per two backward moving time involved tubes that correspond to one set of parallel universes.  A substringular encoder of forward moving time has the same general Laplacian shape as the corresponding encoder of backward moving time, except that the isomoriphism of two of such encoders is in a reverse directoralization.  The substringular encoders are interconnected relatively just below the center of where the two "world-tubes" meet.  There is an open region between where a substringular encoder is and the spread of where the mini-string that these tie into are to interconnect the corresponding superstrings and their associated Planck phenomenon related phenomena.  This process makes a suppositional set of three tubes act as one tube, in a sense.
  The substringular encoders are relatively just above the relative top of the Fabric of the main initiating positions of what I call a Main Heterotic String.  So, forward and backward moving space-time fabric bear opposite tenses of what is relative "up" in the substringular fabric and of what is relative "down" in the substringular fabric if one where to observe such substringular fabric from its exterior.  So, there is more than one of such six-pointed-star majorized regions of the Main Heterotic Fabric that open up to allow for the flow of superstringular related phenomena per set of parallel universes.
When phenomena initially flows into the Main Heterotic String Fabric, such phenomena flows into the region where the substringular encoders were, since the encoders are relatively "below" where regular space-time-fabric as we know it exists, while then entering the prior named Fabric.  This would involve 8*10^(98) superstings for each universe of one main kinematically-based tori-sector-range and 8*10^(98) Planck phenomenon related phenomena for each universe of one main kinematically-based tori-sector-range in the forward moving time section of the Ultimon in-between instantons, and 8*10^(98) superstrings for each universe of one main kinematically-based tori-sector-range for each universe of one main kinematically-based tori-sector-range and 8*10^(98) Planck phenomenon related phenomena for each universe of one main kinematically-based tori-sector-range in the backward moving time section of the Ultimon in-between instantons.
The annuli that interbinds two forward or two backward moving time related world-tubes is larger than the annuli that interbinds such world-tubes of the arbitrarily other two sets of parallel universes.
If the time directed tense of superstrings is to go the other way, then some of the superstrings of one substringular encoder that involves one tense of time will ebb mini-string so as to allow certain of its corresponding superstrings to travel relatively "down" to the space-time-fabric of the opposite directed tense of time until a space-time-coordination is established, while then the forward moving space-time direction will become re-established from that point.  I will continue by providing the test questions for the last test of Cousrse 5 later.  You have a phenomenal day!  Sincerely, Sam.

Something To Clarify

Every Basis of Light has four main eigenstates -- one per each of the four world-tubes that exist in a set of parallel universes.  The four main eigenstates of each Basis of Light -- one per tori-sector-range -- are interconnected by a Trace that has the same general shape of each Basis of Light, except that the said eigenstates of each Basis of Light are majorized into a definitive volume while the Trace that interbinds these eigenstates in-between the described world-tubes involves a Laplacian smooth-curved Lagrangian that is only one first-ordered point particle thick per successive mapping out along its contour.  The relatively thin Trace that interbinds the said four Basis of Light eigenstates helps allow for the recycling of ground and norm states, while the four main eigenstates of each Basis of Light that is associated with one of such Traces each allows for the potential of the Planck phenomenon related phenomena that are to differentiate as the set of discrete units of energy impedance that corresponds to their corresponding superstrings -- the superstrings of which act as discrete units of energy permittivity.  The Trace that I just described exists in-between the world-tubes in a Laplacian-like homogeneous manner in such a manner that the norm to holomorphic end of the said Trace exists at the norm to antiholomorphic end of the forward moving time involving Royal Arc of one set of parallel universes, while the norm to antiholomorphic end of the said Trace exists at the reverse concavity based norm to antiholomorphic end of the backward moving time involving Royal Arc of the same set of parallel universes.  The world-tubes that involve forward moving time involve a Royal Arc that bears an opposite concavity of the Royal Arc that associates with the world-tubes that involve backward moving time.  The four ends of the Laplacian "Chi" distributions of each of such Traces touches the general substringular neighborhoods of the norm to antiholomorphic ends of each of the four main eigenstates of each Basis of Light, taken respectively.  So, for every Basis of Light, their are four main eigenstates to this -- each of which is shaped the same -- although with a non-trivial isomorphic basis.  For every Basis of Light, there is one relatively thin Trace that interbinds these with a strong unborne tangency.  And each tori-sector-range involves one Basis of Light.
What determines what the main kinematically based tori-sector-range is is based on which Basis of Light involves an equal amount of forward and backward moving time.  So, when a different Basis of Light involves an equal amount of forward and backward moving time, the layer of reality that is then primal is changed in an indistinguishably different manner, thus changing one-ten-thousandth of the past and future at that point.  The changing of history is based on the arrangement of the substringular encoders.  So, although there is an indistinguishably constant venue of the Types of Bases of Light curvatures, the assortment and the actualization as to what Bases of Light exist for what substringular encoders varies through time.  The delineation of the relatively discrete particles that deminstrate the kinematic relations of space-time-fabric for each tori-sector-range are constantly being reshuffled in a metaphorical tense per instanton.
I hope that this answers some questions.  I will provide the test questions to the last test of Course Five soon, along with the corresponding solutions -- which are already prepared.  You have a phenomenal day!
Sincerely,
Sam.                                      

Course 5, Session 15, Part Two, The Continuation of The Suspense

Once that the said superstrings and their corresponding Planck phenomenon related phenomena have entered the most adjacent alterior set of parallel universes during the course of the metric of Imaginary Ultimon Time (this duration is in-between instantons), the said superstrings and their corresponding Planck phenomenon related phenomena circle the new world-tube that these have temporarily entered in a holomorphic directoralization until these come to the location of where the antiholomorphically adjacent Basis of Light will form during the sub-metric that will happen right before the ensuing instanton-quaternionic-field-impulse.  The said substringular phenomena will then do this until it enters the ensuing set of world-tubes.  The said superstrings and what will soon be their mini-bases will then circle the now new world-tube in the holomorphic direction that these are in until these come the second time to what is to soon become (during the next sub-metric of the Bases of Light) the adjacent holomorphically placed Basis of Light.  These said superstrings and their corresponding mini-bases will then travel relatively down, across, and up to the adjacent world tube.  The said phenomena that is circling the said world-tube (This is in a sense multiplicit when considering the activity of the phenomena of all three sets of parallel universes, and that each set of parallel universes involves four world-tubes.) will then behave as I described earlier in this post until the said superstrings and their corresponding Planck phenomenon related phenomena have re-entered their home world-tube at the location where each of the Bases of Light of a said world-tube is to form.  (Again, there are four world-tubes actually for each set of parallel universes.)
Once that the said cycling phenomena has entered their home world-tubes, the Bases of Light forms.  Once that the Bases of Light has completed forming, the space-hole ends via the virtual break in homotopy, and what was the Bases of Light now scatters into all of the phenomena that these are encoded to be at as according to the what, where, how, and why that is based on the Ward Caucy Conditions of the relationship between the Bases of Light and their corresponding superstrings, the Laplacian Conditions of the whole scenario that transpires during the sub-metric of the Bases of Light, the topological sways that happen between all of the phenomena that occur during the Bases of Light, the Laplacian and sub-Fourier conditions of the said phenomena codifferentiable with the phenomena in the world-tubes that does not cycle the Ultimon in-between instantons, and the conditions of the substringular encoders.  The purpose of the Planck phenomenon related phenomena and the superstrings bunching relatively together briefly is because the snapping back together of the homotopy that nearly breaks pulls the bunched-up phenomena to scatter as such.  The purpose of the superstrings and norm-states practically breaking homotopy just before instanton-quaternionc-field-impulse-mode is to reorganize the Ward Caucy Conditions of the substringular so that the activity of the total multiplicity Fourier Transform of space and time may involve the sequential series that are necessary for the order and thus the existence of space-time fabric.  The Bases of Light is caused by the limited shape of the multiplicit "oriface" where the said re-entering phenomena are to enter in conjunction with the condition that the light-cone-gauge requires an additional help to the momentum of substringular phenomena, which also allows for the proper delineation of the sum partial integration of all of the said discrete space-time particles that I have described that cycle the Ultimon in-between each instanton.  I hope that my help is good.              
So, for every Planck Time, their is an Imaginary Planck Time.
The "superstrings" that cycle the Ultimon are different from the superstrings during instanton in that the ones that cycle are relatively disorganized in terms of Ward Neumman Conditions, although these still bear a relative proximity of each other when these are relatively scattered while yet just partially disorganized.
I will publish the Last Test for Course Five next.  You have a phenomenal day!  Sincerely, Sam.

Some Definitions That May Help You Understand Course 5 Better

1)  Substrate -- Something that is acted upon.

2)  Operation -- Something that happens.

3)  Operator -- Something that does something.          

4)  Operand -- Something that something happens through.

5)  Ward Conditions --- The Boundary Conditions of something that may involve four or more spacial dimensions

6)  Neumman Conditions -- The Boundary Conditions of something that involves something in and of itself.

7)  Derichlet Conditions -- The Boundary Conditions of the first derivative of something.

8)  Ward Neumman Conditions -- The Boundary Conditions of a phenomenon in and of itself that may involve four or more dimensions.

9)  Ward Derichlet Conditions -- The Boundary Conditions of all of the applicable derivatives of something that may involve four or more spacial dimensions.

10)  Caucy Conditions -- The sum of the Neumman and the Derichlet Conditions.

11)  Ward Caucy Conditions -- The sum of the Ward Neumman and the Ward Derichlet Conditions.

12)  Phenomenon -- Something that exists either literally or theoretically.  

Here Are Some Helpfull Definitions For Course 5

1)  Holomorphicity is the condition of a holomorphically directional motion.  Holomorphic motion means motion that goes to the relative left and/or in the relative counterclockwise direction.  Antiholomorphic motion means motion that goes to the relative right and/or in the relative clockwise direction.  Norm to holomorphic means motion that goes in the relative up direction, and norm to antiholomorphic means motion that goes in the relative down direction.       

2)  A Fourier mode means a mode that involves time, or, in other words, a Fourier mode means a mode that involves the course of two or more sequential iterations of instanton.  A Laplacian mode means a mode that does not involve time, or, in other words, a Laplacian mode, in the substringular, means a mode that happens either in a motionless condition or at least in less duration than the Planck Time.

3)  A holonomic condition means a condition that appertains to a topological substrate that is composed of one or more eigenstates that work together for the same general function or the same general operation.

4)  What I mean in the arbitrary example that I gave of "(n-1)" is the condition of substringular phenomena that belongs to one particular tori-sector-range (one layer of reality that is shared by all of the universes of a set of parallel universes) that involves the said substringular phenomena to enter the Fabric of one of the three main eigenbases of the Main Heterotic Strings one location of what is to be where the Basis of Light of the directly antiholomorphically positioned tori-sector-range  from where the Basis of Light of the intial tori-sector-range is to form during the same sub-metric of the ensuing Bases of Light.  What I mean by "(n+1)" in the text of what I wrote and typed is the condition of a tori-sector range of substringular phenomena to enter the Fabric of one of the three main eigenbases of a set of parallel universes at the position of what is to be one Basis of Light directly holomoriphic to where the Basis of Light of the intial layer of reality will form during the ensuing sub-metric of the Bases of Light.

5)  What I mean by the Bases of Light may have one of two meanings.  It sometimes means the Ward Caucy conditions of the total of each Basis of Light, in which a Basis of Light is where all of the Planck phenomenon related phenomena of one tori-sector-range huddle together to form a majorized topological distribution that is relatively proximal during the metric in which this happens to the corresponding superstrings that are associated with the said Planck phenomenon related phenomena.  The Bases of Light may also mean the duration of the huddling of the said Planck phenomenon related phenomena that are then relatively proximal to the said Bases of discrete substringular impedance.  (Superstrings, though, form discrete substringular permittivity.)  Once the space-hole is to the point of almost breaking homotopy, the huddling of the layers of reality pull into instanton-quaternionic-field-iimpulse mode.  This impulse-mode redistributes the said substringular phenomea to where these are to reiterate during the ensuing multiplicitly based instanton.  The how, what, why, and where of the said ensuing distribution is based on the Ward Caucy interelation of the said superstrings with their corresponding "mini-bases" during the Bases of Light, as well as with the Ward Caucy delineation of the topological sway of the same said phenomena, as well as the Ward Caucy condition of the corresponding substringular encoders.

Course 5, Session 15, Part One

Well hello again world, this is Samuel David Roach here!  How are you doing?!
So, get your mind into overdrive, and savor some of the thoughts that I am about to present to you.

Initially, let's backtrack to where I left off last time.  First-Ordered point particles in the scenario that I had recently left you at in the second part of the fourteenth session of course 5.  After the said first-ordered point particles go through the middle of the Main Heterotic String fabric that binds one set of parallel universes to the set of parallel universes that  are positionally oriented to the initial set according to the sequential basis of:  1 to 2; 2 to 3; or 3 to 2;, these said point particles go up the Main Heterotic String Fabric of the adjacent set of parallel universes.  Once these said point particles are back to the world-tube of the adjacent set of parallel universes, these travel around the succeeding world-tube with the said tori-sector-range that one is dealing with until these said point particles reach the preceding locus of the positionally antiholomorphic spot where the tori-sector-range that forms a Basis of Light there for that set of parallel universes will localize at the succeeding sub-metric in which that Basis of Light there will form soon before the next instanton.  The said first-ordered point particles will then enter the Fabric of the Main Heterotic String that is directly norm to antiholomoriphically positional there in order to go "down, across, and up" to the succeeding set of parallel universes according to the sequential basis of:  2 to 3; 3 to 2; or 2 to 1;, in the same manner as before, except involving a sub-metric Imaginary Fourier group gauge-metric that involves an interaction of different tenses of sets of pararllel universes.  Upon entering to the just described sets of parallel universes, the said point particles differentiate as before to complete the (n-1) entery into other sets of parallel universes that partake of the total ((n-1), (n+1)) redistributions that involve the interactions of first-ordered point particles with the alterior world-tubes that such point particles normally do not kinematically differentiate in during any particular instanton.  Later, I will explain the prior mentioned "(n+1)" redistribution mode that I am trying to teach here under the example that I arbitrarily name as an "(n+1)" mode, as well as why I define these modes as such.  Once you understand what I mean by these modes, it will become clear as to why first-ordered point particles generally only kinematically differentiate in a Fourier manner in their set of parallel universes.  I will bring these concepts into fruition in the minds of those who have strong right and left brain minds once I have fully discussed courses 5 and 6 to completion.  The second part of this session will thus be larger than this first one.
I will continue with the suspense later.  Until then, you have a phenomenal day!  Sincerely, Sam.  

An Addendum To A Possible Miskake I May Have Made

Just as superstrings and their corresponding Planck phenomenon related phenomena enter their respective sets of parallel universes, the Bases of Light are formed just as the space-hole happens.  If phenomena were to attempt to cycle around their sets of parallel universes one last time before the space-hole, as I may have accidently wrote once, then instanton-quaternionic-field-impulse-mode would happen (2pi-6)Ihbar too soon, along with the fact that the Bases of Light would then not be able to form, and the space-hole would not even be able to happen.     

From the time that superstrings and their corresponding Planck phenomenon related phenomena enter their respecive sets of parallel universes, until the space-hole is fully formed, is the metric that happens during the Bases of Light.
Once the Bases of Light is formed, the space-hole metric is simultaneously ended, and the Bases of Light begins to scatter during instanton-quaternionic-field-impulse-mode. The superstrings that have counterstrings as well as the relatively local holomorphic and antiholomorphic norm-states that underwent the space-hole scatter too in such a way so that superstrings may reaffiliate with their respective Planck phenomena related phenomenon, and so that phenomena may in general be relocalized in the sundry loci where these are to reiterate during the course of the insuing instanton.
The Ward Conditions of the topological sway of the individual Bases of Light in relation with their respective superstrings that these are to later affiliate with, along with the Ward Conditions and the Norm Conditions of the entire differential geometry of what is happening just as the metric (or sub-metric) that is happening during the Bases of Light, along with the differential geometry and Ward Conditions of the substringular encoders, along with the whole Laplacian Condition of all of this during this metric, helps to work to define the where, how, who, and why of the next sequential eigenstate of the Fourier Condition of the differential geometry of the next tense of instanton.
I hope that this is plenty of an explaination for now.  I am here to help.  Sincerely, Sam.

Course 5, Session 14, Part Two

Well hello again so soon, this is Sam Roach with the conclusion of my exciting recent post about Compactification and Yakawa Couplings!  How are you doing?!  Please feel free to comment.

At the point that the first-ordered point particles that are related to a specific tori-sector-range, during instanton, that appertain to superstrings and Planck phenomenon related phenomena, after virtually two circuits of the associated Royal Arc eigenstate, reach the section that is local to what is to be the directly posititionally antiholomoriphic "Trace" of what will be the tori-sector range that is right before the general locus, these first-ordered point particles will go "down" (relatively norm to antiholomoriphic) the "top" of the Main Heterotic Stringular Fabric until these reach the middle of the said Heterotic String.  when the said point particles approach the said Heterotic String, indices or constituent-force-sectors that act as a "vapor" coming from both the said Heterotic String & the said point particles act like "sticks" that are normalizable to strike in a manner that pushes the Heterotic String to open as these points approach this.  By the time that the said point particles reach the "string" (a Heterotic integration that forms the said entity), the said point particles "knock" the "sticks" down in a manner that still allows a topological Gliossi maintainance of homotopy, and the associated point particles (first-ordered) are able to flow through the metaphorically stretched maze of the Main Heterotic String.  Just as the points start traveling through this "string", the fabric of this holonomic entity goes from what was compactified to decompactified (stretched out, here), to recompactified at the point that the sum of the covariant codifferentiating point particles have gone into the sub-metric of the Bases of Light.  This is an example of a Yakawa Coupling that allows for the operning of a "string" that later compactifies.  This is like a major fractor of the function of microtubules to the existence of living cells.  I hope that I have answere some of your questions.
Sincerely,
Sam.                

Course 5, Session 14, Part One

Hello world, this is Samuel Roach again with another exciting session of superstring theory!

So, how does the Main Heterotic Stringular Fabric stretch out?  Phenomena always exists as arrayed point particles.  When a globally distinguishablly pheomena goes from one spot to another, and this change is drastic and automatic, then the transfer of phenomena goes faster than light in the perspective of the Ultimon.
Anything that goes faster than light either involves tachyon propolsion, or, in the prior discussed case, a said phenomenon involves a direct transfer in the substringular.  Direct transfer in the substringular involves a redistribution of substringular sequences and a redistribution of substringular series iteration.  This redistribution causes the mind of a living being transferred to notice the transfer of the central points of their mind.  These central points will go around the Ultimon until these are one tori-sector-range away from the tori-sector-range that these were originally in.  At this point, these points will enter the "Trace" of the what will soon -- after a matter of sets of sub-metrics --  be a given related Basis of Light of the associated tori-sector-range.  I will let your imagination develop so that my suspense will encourage you to read what I have already prepared to let you know later.  If you have really good rational intuition, you may know what I am going to reveal.  I will continue to put the pieces of this puzzle together for you later!  You have a phenomenal day!  Sincerely, Sam.        

Course 5, Session 13, Part Two

Well hello again world, this is Samuel Roach here to speak to you today more about the session that I began discussing over the internet yesterday!
        
Differential geometries recycle in order to allow for the kinematic redistributions of mini-string, whose redelineation allows for the continued Fourier activity of topology via a covariant yet interconnected homotopy (with the exception of what goes into black-holes).  The eigenstates of the operation of the recycling of substringular phenomena gives off indices or constituent-force-sector codifferential loci that eventually become used elsewhere.  These eigenstates bear a Gliossi touch to other phenomena in a manner that may be mathematically based on the angle of 4pi(I) degrees based on the perspective of the globally distinguishable.  The association and relationship of globally distinguishable phenomena with other parallel universe phenomena within a given setting has a differential geometry that involves Imaginary three-dimensional tangency.  This tangency is coupled with the resonant vibration of the associated Bases of Light from within their given tori-sector-ranges.  This relationship, when reverse fractored,  maximizes the ability of color perception of living beings of whom observe phenomena.  If it wasn't for Imaginary tangency, the reverse fractored stipulated condition of color would not be possible.  Waves not only form as energy to form light, yet these waves interact at C(a constant)*Ipi degrees in many ways so as to form our ability to perceive of color.  Real tangency as a basis of borne tangency at the substringular level when reverse fractored could never allow the formation of color.  It takes a Njenhuis interaction via the sundry sequential Fourier Series  of integrated covariant and codifferential phenomena to allow for the reverse fractored condition of color.  The higher the coefficient that is to be multiplied by Ipi to determine a tensoric substringular borne tangency via countless superstings integrated as a unit of phenomena, the more likely that the "color" that would appear in the globally distinguishable would not be perceived, since the described observation of the "color" would then tend to be Ward Polorized to cause the perceived phenomenon to appear to the given viewer as dark matter.  This substringular "sensory perception" is an arbitrary example of a Yakawa Coupling.  This Coupling is an electrodynamic perception that involves electrostatics involving borne tangencies interacting with Njenhuis conditions of unborne tangencies within a proscribed operational field that involves an associated Ward Caucy boundedness.  I will continue with the suspense later.  Sincerely, Sam.       

Course 5, Session 13, Part One

Hello Again, this is Samuel Roach here!  I am here today to discuss with you more about Compactification and Yakawa Couplings!

What makes a wave a color?  An eigenstate is where a wave and a thing become one thing.  So, ths reality that makes a wave a thing is the same reality that gives an eigenstate a value.  Light is composed of waves.  Waves of energy.  This energy is composed of superstrings.  These strings are composed of first-ordered point particles.  The direct waves of light that we observe are in the globally distinguishable, and are waves of energy that are trajectories of Planck linear energy (h) and Planck radial energy (hbars).  HBars are the smallest amount of energy that is still what we would term of as energy.  An hbar is on the order of a globally distinguishable superstring.  The globally distinguishable that we generally come in contact with is one of many parallel universes that exist in the substringular.  The Basis of Light is a substringular phenomena.  Bases of Light vibrate in a resonant vibration, yet with a brevity of sub-metric that keeps this from shattering. The just described resonant vibration happens at an indistinguishably different pulse, and in a framework of shape that only varies through time (the integration of the group iterations of instantons) via the given tori-sector-ranges  with a time-related association that is either:  1)  Equally forward and backward moving;  2)  Mostly forward and less backward moving;  Or, 3)  Mostly backward and less forward moving.  The activity of these Bases causes differential geometries to recycle so that the covariant exchange of substringular field, or, in other words, so that the covariant exchange of mini-string that allows for the flow of the kinematic differentiation of topology to allow for the maintainance of homotopy, may occur.  This should be enough food for thought now!  I will continue with the suspense later.  Sincerely, Sam.   

Part Two Of Session 12 Of Course 5

Yakawa Couplings are metaphorically like nerve impulses.  When you feel pain or pleasure, your nerves feel this and respond.  This response couples what the neurons are made of with the impulse that goes through these.  Vision is a coupling.  Vision couples the ability of the eyes with the surroundings that give them something to see.  Any sort of sensory perception may thus be considered a coupling.  Yakawa couplings are a sensory response to the needs of the substringular.   

The space-hole is a phenomenon that has a Yakawa coupling capability.  When Ground and Fock spaces try to comingle too much, the space-hole snaps these apart.  Ground spaces involve strings and other points consideed positive, while Fock spaces involve the counterpart of strings and other points considered negative.   Fock space, as you now can tell, must always be separate from Ground space, or else these point will be elliminated.  Through time, strings with a lot of energy or vibration tend to break down these barriers and comingle improperly in spite of the space-hole.  The space-hole gets jammed a little like a partially clogged artery does metaphorically.  The more predominantly that black-holes that exist, the more of a chance to the end of the universe.  This is why it is important to elliminate black-holes.  The space-hole may take some abuse, yet only so much.  Generally, large stars have strings that have enough energy to break these "things."  The "trick" is to elliminate the exception to the space-hole.  Please share your comments. 

Course #5, Session 12, Part 1

Hello again, this is Samuel Roach here!  How are you doing?!  In this session, I am about to conceptually discuss with you about a phenomenon that I call the Main Heterotic String.

What is this Main Heterotic Stringular Fabric?  The Main Heterotic String phenomenology is a set of points that forms a doubled square in the substringular that allows points to travel to different parallel universes and to different sets of parallel universes.  There is a Main Heterotic string at each tori-sector-range of the substringular.  The part of the Main Heterotic String that a person would actually transit through is either one of its Minkowski based sides or in its middle and in the region of the center of its cross section.  The cross-sectional middle of such the Main Heterotic String unifies a set of three relatively fat lines, in a side-wise doubled-up "box" of point particles, that act each as six-pointed stars that integrate along the topological surface of these "squares."  This six-pointed stars open up to allow phenomena to enter, and close when point particles are not going through. First-Ordered point particles are generally going through any given Main Heterotic String.  There are only slight "delays" in-between the very brief sub-metric when first-ordered point particles are going through there, since the associated substrings and "mini-bases" need to flow through the center of what is initially a the shape of a six-pointed star.  The process of something as thin as a Heterotic Strings' kinematically  overt substrate detecting a set of point phenomena while then opening up for it is a perfect example of a Yakawa Coupling.  The process of a Main Heterotic Strng closing when point particle phenomena have left this is a perfect example of compactification.  Yakawa Couplings may involve sensory detection of substringular phenomena to a given signal that allows a specific function to happen, while compacitification may involve substringular phenomena to come together into a more condensed shape than it previously had.  So tell me, what are your thoughts about this?!  Please feel free to share with me any dialogue reffering to what I describe as "Main Heterotic Strings."Please send comments to my blog.    
I will continue with the suspense later!  Sincerely, Sam Roach

Solution to Ninth Part of Test One of Course 5

9)  During ths sub-metric in which the Bases of Light are manifested, there are countless mini-string or substringular field eigenstates that interconnect partial loci of individual Bases of Light to the topological holonomic surface of superstrings which are to subsequently be retied relatively proximal to their respective Planck Phenomenon related phenomena.  As mini-string ebbs back-and-forth during the untying of the Bases of Light, the corrersponding superstrings, which act as discrete units of energy permittivity condenses the anharmonically translated to harmonic flow of substringular field holonomy into the countless discrete Ward Caucy neighborhoods which define the sundry eigenstates of interbound energy permittivity that is balanced by discrete energy impedance via the wave residue in-between these Laplacian physical Ward Neumman states that acts as the light-cone-gauge.  The decompactification of the Bases of Light serves to spacially delineate and redistribute discrete energy phenomena via the sum of the partial integrands of the said Bases' holonomic structures as this basis as a whole is unwoven via the sub-metrics of the sequential series of the multiplicit dot product operation of the enfoldment of each respective Hodge-based perturbation.  The bases of the respective Hodge indices is the supplemental norm conditions that are mapped Yau-Exact if Noether and Chern-Simmons if tachyonic via the group action of the gauge-metrical activity of stringular encoders upon the sum holonomic manifestation that transpires during the sub-metric that is known as the instanton-quaternionic-field-impulse-mode.  I hope that the solutions that I have posted today are helpful!  Sincerely, Sam.  

Solution to Eighth Part of Test One of Course 5

8)  A Basis of Light unties from the interior to the exterior of its holonomic entity in a multiplicitly discrete and hermitian manner in a way that delineates what is to be each of its corresponding "mini-bases" to their respective superstrings right after the "knot" in the center of the said Basis of Light begings to convert its topological substance into an uncompactified assortment, that, via wave-tug, later converts into the substance of the initially propagated "mini-bases" that become directly linked to their respective superstrings via the light-cone-gauge. 

Part Two of the Test Solutions to the First Test of Course 5

4)  If the "U" shapes involved with a Basis of Light are equally elliptically and hyperbollically concave, the time directoralization involved with such a a Basis will equally involve forward and backward moving time.

5)  If the "U" shapes of a Basis of Light are primarily ellliptically concave, then the time directoralization involved with such a Basis will primarily involve forward moving time.

6)  If the "U' shapes of a Basis of Light are primarily hyperbollically concave, then the time directoralization involved with such a Basis will primarily involve backward moving time.

7)  During the sub-metric in which the holonomic structure of the manifestation of the Bases of Light is overtly operational, the "knots" in the center of each related Basis bears a Dirac-operation of increasing in size mildly just as the main morphology of each respective Basis decrements in a euclidean manner in accordance to a Clifford-llke inverse proportionality right before instanton-quaternionic-field impulse-mode.

I will continue with the suspense of providing the rest of the solutions during my next two posts.  Sam.  Yes!

Part One of the Solutions To Test One of Course 5

1)  A Basis of Light has the shape of a hermitianly shaped-wise majorized Laplacian giant Planck Phenomena related phenomenon with an initially relatively small central "knot" that starts out just six first-ordered point particles thick.  The increase in size when one, in a Laplacian manner, goes from the center of such a Basis to the rest of the morphology of that Basis goes from an euler increase in holonomic morphology to more of a euclidean Laplacian delineation once the mapping of the described configuration is observed  to be co-determinant with the morphology of a spacially majorized Planck Phenomena related phenomena.

2)  Right after instanton, first-ordered point particles of superstrings scatter mildly into point commutators that, besides indistinguishable differences, tend to maintain a Fourier-based covariant localization during the Imaginary Time of Ultimon Flow.

3)  Residue of superstrings is never permanently squandered.  Even when superstrings go into a black-hole, their holonomic components eventually leave the said black-hole's torsioning apex as antimatter that eventually reorganizes into matter.

Course 5, Session 11, Test Questions

1)  Describe in general the morphology of a Basis of Light.

2)  What phenomenon happens to the point particles of substrings right after instanton?

3)  Is residue permanently squandered?  Why?!!

4)  Describe the "U" shape of a Basis of light that equally involves forward and backward moving time.

5)  Describe the "U' shape of a Basis of Light that predominantly involves forward moving time.

6)  Describe the "U" shape of a Basis of Light that predominantly involves backward moving time.

7)  Describe the change that happens to a Basis of Light during the sub-metric when it is manifested in relation to the main part of its holonomic entity verses its "knot" in the middle of such a Basis.

8)  Describe how a Basis of Light converts into its respective Planck Phenomenon related phenomena.

9)  Describe how the substrings that directly interact with "mini-bases" of light are associated with the Basis of Light right before the quaternionic-instanton-field-impulse-mode.

Course 5, Session 10, Part Two

Hello again, this is Sam Roach here!  How are you doing?!
Now, to continue with the session that I have just recently published.

As an example of how Planck Phenomenon related phenomena return to be associated with some Basis of Light:
If there were two almost identicle Bases of Light, one will activate to deactivate the prevailence of  the other.  If there were three almost identicle Bases of Light, two will activate sequentially, and the other will go back to the original position that such a less predominant Basis would normally have if not activated to be prevailent.  This involves the stringular encoder that is directly involved with such an "inactivated" Basis being kept out of the direct Lagrangian path that an activated Basis of Light will have, in terms of the section of space-time-fabric where the superstringular encoders are located.

So, the 'knot" is small in a Basis of Light as compared to the sum holonomic manifestation of such a Basis here, yet it is not loose.  The so-called knot here is a field association pulled larger by the right fitting recycling mode that is vibrated larger.  (So, the center of a Basis of Light increases in size during the brief sub-metric in which the Bases of Light are manifested right before the quaternionic-field-impulse-mode -- the latter of which comes right before instanton.  The fabric of a Basis of Light never shatters, though.  The shape of such a Basis is that of a majorized Planck Phenomena related phenomena that is Laplacian-based in a hermitian tense, although the Ward curvature that decriments to its center is euler based in such a Dirac fashion so that the thick rho, theta, and phi related Hilbert Space of such a Basis is mildly decremented as the "knot" in the center just starts to largen, which is right before such a Basis is untied into many mini-bases on account of the activity of the superstringuar templates that "mold' into one tense of superstringular encoder so as to allow the sub-metric activity of instanton.  The activity of the recycling of mini-string delineation helps to keep space-time-fabric from fraying..

If a point is mostly mini-string that is relatively loose without much considerable condensed oscillation, and it strikes a point particle of the first-order with full codensed oscillation (in so much as can be expected), and if the original first-ordered point particle also strikes a line of mini-string, the waves of the first described point will elliminate the waves of the second point, and the points wil be elliminated.  These two tpes of norm-states need to be separated by the space-hole.  The space-hole is throughout the Continuum in-between each instanton.  (This involves the first-ordered point particles and the norm-states that are indirectly attached to the Bases of light via an unborne tangency just as the Bases of Light are manifested during the sub-metric in which this happens.  The space-hole is like a semi-permeabel membrane that only allows certain waves of positive points to effect certain waves of negative points, under the conditions of their respective norm-states that these comprise, being used to denote which points are "positive" and which points are "negative."
You see, positive and negative norm-states have waves that flow in opposite directions.  The space-hole only allows waves that will maintain phenomena to flow through this.  The space-hole is a fabric within the space-time-fabric that is shaped in so that small particles with opposite holomorphicity do not collide in a destructive manner.  It allows the maintainance of stuff.  the space-hole is when the topology involving homotopy  temporarily begins to disconnect to allow for the necessary reshuffling of the substringular.

When mini-string on the fringes of positive and negative norm-states, and on the fringes of superstrings and their counterstrings begins to comingle, the space-hole detects this like the body detects pain.  When this happens, the space-hole snaps these wave-sectors apart.  This happens because the comingling starts an attempted atrophy in phenomena that forms torsion in the space-hole.  This torsion snaps the space-hole onto the space where the comingling began.

I will stop here with this Session, because the remainder that I previously prepared is not for the public ear.
God Bless You, and you have a phenomenal day!  Sincerely, Sam.    

Course 5, Session 10, Part One

Hello, this is Samuel Roach here!  How are you doing?!  I am about to write the first part of Session 10 of Course 5.
Many strings are associated with the same Basis of Light.  One string may also be associated with many different types of Bases of Light.  The recycling of one section of a string may associate with one type of Basis of Light and the same string may also associate with several different Bases of Light before the whole string has been recycled.  After the equivalent number of instantons equal to the total number of all of the  first-ordered point particles that a substring consists of, the string goes through one complete sequence of recycling.  There is always some phenomena that returns to that stiring from the existant substringular fields that are present in homotopy in so long as the described substring is not frayed.  This is why they call this a condition of recycling.  So, a string, after much progression, may be different, totally.  A string may also be the same from all outward appearances after the whole recycling.  How?  Each phenomenon brought back to the string may identically match what was there before.  The only difference is that the specific indistinguishably different mini-string that comprises this will be different.  In other words, the fabric of the string will be constantly kept sturdy enough to ensure the maintainance of space-time-fabric.  The "knot" of the mini-bases of light has pulled in fields.  The "knot" of the large Bases of Light has relatively large fields.  The bigger fields described are enlargened fields that are tight, yet take up more room.  The fields become larger because these strike a resonant vibration with the same recycling mode.  Any Basis of Light with the same resonant vibration and the same recycling mode will effect this.  There will always be a place for mini-bases of light to return, unless these fall into a black-hole.  I will continue with the suspense later!  Sincerely, Sam. 

Course 5, Session 9, Part Two

Hello there, this is Sam Roach here! How are you doing?!
Here is the next part of Session 9 of Course 5.
In the substringular, the ties of the strings are rippled to the ties that interconnect to the "knots" of the associated Bases of Light by the following: The strings associated with all of the Bases of Light untie by the momentum of the point particles tugging at these strings. This untieing forms a ripple toward the untieing of the strings that exist at the interconnection at each given Basis of Light. This total ripple forms a norm-state here -- a set of first-ordered point particles that is tied yet not woven into a substring. A given Basis of Light here now breaks down into many different "bases" that travel around the Ultimon. When these "bases" come within their resonant vibration, these enter the overall general Basis of Light. The residue continues to flow as this shows. The now formed "Traces" of this basis is like a set of giant Popov Ghost Traces, and is the actual Basis of Light. These Traces always exist within a resonant vibration, and does not leave this during each sub-metric in which this exists in so long as the associated space-time fabric is unfrayed. It may change location in terms of topological distribution, though. The mini-bases are the discrete units of energy impedance, which is particularly important to the existence of photons. The Traces are the basis of the speed of light. There is only one Trace per tori-sector-region.

The operand of the Ultimon consists of many constituent-force-sectors. These sectors are what comprise the whole ultimon, and are smaller than first-ordered point particles in thickness. The Traces are the resonant vibration of the Bases of Light as maintained by these constituent-force-sectors when the basis of the fabric of light is temporarily missing. When the Bases of Light are brought into the form of Planck Phenomenon related phenomena, the fabric of a given Basis is coupled at each end and made to form a slightly large number of the given "mini-bases" used to travel around the Continuum. When the mini-bases return back to their associated Trace, these fold back into the overall local Basis, with the given recycling potential. When a large basis is formed (an eigenstate of the Bases of Light), the "knot" is formed in space of the six point particles at each spot along the given Basis. This now catches part of a substring since it is so wide of a tie. After this "knot" catches a substring, the part of a strings here that gets tied with the associated Basis of Light local here gets pulled into the related recycling of mini-string or substringular field. In overall universal history as in each parallel universe, there are 159,000 Bases of Light per iteration at its max. Each of these Bases involves a Trace that involves the intrinsic resonant vibration of the string from many parallel universes. Note, many. There is a lot of dark matter. Different strings may be local to the same Trace, yet if something is dark matter, it is probably involved with a different Basis of Light than the observer whom notices the described phenomena as dark matter. A Basis of Light iterates countless times, only ending if its associated substringular phenomena becomes frayed.

Course 5, Session 9, Part 1

Hello again, this is Sam Roach here! How are you doing?! Well, in this session, I am about to explain more about the nature of how the differential geometry of Planck Phenomenon related phenomena effect the nature of reality that we undergo. Remember how I previously described the "U'" shapes that comprise part of the topological morphology of Planck related phenomena? Well, here I go with more of an explanation as to how the configuration of this aspect effects our observation of reality. If the "U's" of a Basis of Light are not equal in proportion, then time does not equally move forward verses backward in the respective tori-sector-range. The more that the described "Us'" are elliptically concave, the more that the respective tori-sector-ranges involve forward time moving substrings. However, the more that the described 'Us'" are hyperbolically concave, the more that the respective tori-sector-ranges involve backward time moving substrings.
Time may travel in different directions in different tori-sector-ranges, since there are, in general, at least some spaces in-between point particles. Here, mini-string configurations are the fields of the condensed oscillations that comprise the related first-ordered point particles. These fields, when not repelling, allow points to travel freely in space. The spaces in-between these point are the operands of the associated point particles.
Strings have points near each other. Sets of first-ordered point particles being near each other form nodes with sets of other of such point particles that are also near each other. The point densities are like nodes themselves that retie with other Bases of Light in many combinations through the progression of the redistribution of the interacting substringular fields or mini-string that governs these. This force of substringular field is a sub-force which I have called the Constituent Force. This sub-force is simultaneous mind and matter. As the Creative Force brings life, peace, and consciousness into its observation, the substrings, in general, of the Ultimon, retie in countless recombinations. Relative nodes of tori-sector-ranges cause light to scatter with strings countless times in each tori-sector-range. (Tori-Sector-Ranges meaning the set of Gliossi-Sherk-Olive fields that are potentially kinematic over a Fourier Group Metric for a given layer of actual reality.)