Math Solutions Brij Consulting, LLC
An Addendum to Wave and Lens Assimilation

Tasks and Results
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Find the Sides
• A crosswalk of relational
metrics helped to define
the sides using relational
facts of the Right Triangle
• Finding the sides
enabled a more
comprehensive Asset
composition for the Plan
and the placement of
Green Energy
Formulation within the
context of it
Find the Alpha Beta Sin
Functions of the Sides
• Knowing the
interpolative values
within the crosswalk
enabled the interior angle
discovery
• The outcomes of the
Sides are Proven
Graph the
Relationship
• By defining and proving
the relationships many
justification facts are
supplied through the
future value statement
• The plaitable, scalable
nature of glass lends itself
to graphical inference and
motivation
Stack the Wave
• By using both a Sin
Function for a wave array
and the stochastic
manipulation of it, the
blue wave can stack, and
the green can pull
according to the graphics
• In Glass, the Investment
and the Product are
functionally the same
Dimensional
Interpolation
• Dimensional
Interpolations of the
graphics allowed us to
create the Product Media
storage, with more work
to follow
• Graphic arrangement of
data directs the glass
achievement
1. Find the Sides of the Instances Triangle
2. Prove the Outcome with alpha, beta in Trig
3. Graph the Relationship
4. Stack the Blue and Green Energy Wave
5. Interpolate Dimensionally

ARK MODE Topics
Load Evaluation
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Sin Cos Tan
5.348226922 -0.804574366 0.593851909 -1.354840076
y = -0.2751x + 0.0284
R² = 0.075
-1.5
-1
-0.5
0
0.5
1
Standard Alpha
The Standard Alpha approximates Value Added
α2

Introduction
•The Plait Glass arrangement in Ark
and Digital Design is discussed in our
papers at length. In our most recent
paper, we described the Lens used for
building objects within this System.
•It was necessary for us to describe
the dimensions of the Build Triangle
for supplying Instances to the
Projects and to proof its construction.
•It was further necessary to depict
the wave functions and their
compositions
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Task 1
1. Find the Sides of the Instances Triangle
Labor and Side C
related

B Side: Elements of
Capital Requirement
The B side of the Interior Demand for the
Build is defining the Capital side of the
equation; from the assimilation of the blue
and green wave the Asset Margin and the
Unitary Thruput have teamed up with
carriage burden to define Equity as 26136
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1. Find the Sides of the Instances Triangle
We have extended
the scope relationship
to access the external
demand (Be)

A1 Hypotenuse (Transition)
The Transitional part of the equation is the
Invested Portion which is a measure of its
curve equation, which is squared or 40804
The Perimeter was found by using the form
h1/h x q and is the plot burden when
doubled. Perimeter = 78600
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1. Find the Sides of the Instances Triangle
map 25.2
alpha @ Std (-) 5.348226922
h1 19.85177308
The third side, the Resource side, is forced but proofed in
several reviewed treatments, also found in prior work.
Labor Std
See
alpha
beta
proof
next
1. Find the Sides of the Instances Triangle

2.Prove the Outcome with
alpha, beta in Trig
• Using the Interior Margin in relationship with
Side B find B/(sin(“int mar”)) Trig Proof Blue
The first proof shows that the Alpha 1 result differed from the
original by the Green Energy Investment that leverages it
• Using the Beta = 1.0655 based on the rate,
find the relationship with Side A1 by
calculating A1/(sin(“Beta”)) Trig Proof Gold
The Second Proof when divided by 4 computed the value of the
third side without some portion of the marginal load that
needed to be stated as a limit. See Slide 4 [Lim]
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α1
Ω
Note: The three sides do not form a perfect right angle and
for the build this may be valid. However, the GETi
reinvestment is part of increasing the Investment and is
relationally correspondent. The Lens itself is calibrated
perfectly.
*Allowable Differences due to variations of the Load
Task 2

3.Graph the
Relationship (Tan Line)
The Tangent Line is the Leveraging of the
Transition Curve which occurs because of
the Green Energy Position.
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Brij Consulting, LLC Jean Marshall
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74 + 1.16 = 75 with work
And is usually called the ark rate
^706x2=141-116=25 Map
^
G
G
G
417.85 -415= 2.85
415 = Thread
285 = Load
Task 3

Composite
Theory
•The Composite Theory of building
with Ark Lens and Utilities is relevant
to secant engineering, wheels that
enable mechanical attribution to
occur.
•Because these wheels operate
perennially, they must suit the
ongoing operation of any systemic
action or production paradigm.
•The reason for using Trigonometric
theory in this is to compose the
wheel relationship
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Variations on the Load
cause glass relational
adjustments to occur
The Earth could not exist
without God or without
the Ark and its Wheels
His feet were like polished brass refined in a
furnace, and his voice was like the sound of
rushing water. Rev 1:15

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4.Stacking the Blue and Green Energy Wave
ARRANGING BLUE/GREEN WAVE
• An Array was made from various
rates of the blue and green
crossover
• When Converted by the Sin
Function each data element of the
array is redefined as part of the
circle, carrying with it an angular
content
4. Stack the Blue and Green Energy Wave
Task 4

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REDEFINING THE DATA AS
STOCHASTIC
• Finding the ANOVA Two-Factor
without replication we statistically
correlated the data so that it was
stackable and pullable, as denoted
by the charts
• The we worked on interpolating
the blue stack specifically so that
we could denote the stack in its
particulars of the arrangement.
• The theory of it is the compilation
of the product media, yet there is
more to accomplish with it in our
next paper.
5. Dimensional Interpolation
Task 5

y = 17211x - 22646
R² = 0.7148
-10000
0
10000
20000
30000
40000
50000
60000
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
Thread Pull
Series1 Series2 Series3 Series4 Series5 Linear (Series3)
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The Nature of Glass lends itself
to the graphical motivation and
layering of thread.

Internal and
External Alpha, Tan
14
• Is it possible to define the Tangent Line in
the Lens Transition Graph?
• We aren’t mathematicians but we see a
cogent way of finding an approximation with
the Internal and External Alpha Secant Lines
• This is a suggested solution not a
recommended one
The use of
secants
requires
some crafty
means to
delivery

Motion Projects
1. Studying T&MM: the requirement for certification of mobility
for competent conveyances
2. Portal Projects: the evidence, timing and intelligent use of
portals
3. Calling it Green: Components of Green Energy, short review:
Calling it Green requires new uses of potential and ^studies in
wave glass and graphical relationships can raise up a green energy
fluency that will lead to energy self-sufficiency
4. Dimensions in Multivariant Fabrications: Determining Forms and
Contents of Green Energy and Blue Wave Cascade; relating
elements to current science and future requirements
5. Wave and Lens Assimilation: The means to compile and to build
in Glass Systems is described. The use of secant math.
Brij Consulting, LLC Jean Marshall
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Go to https://www.slideshare.net/Marshallja/presentations
See an additional 38 papers on Ark, Digital
and Remote Projects in Plait Glass