ORIGINS OF TIME MEASUREMENT AND THE CORRECT VALUES OF UNITS OF TIME
Link to the Book: The Gregorian Universal System and Units of Measurement System (GUSUMS): The Art of Mathematics
The Gregorian Universal
System and Units of Measurement System (GUSUMS) was also able to show that time
measurement, the units of time, values of time, and the concept of time was
also based on the circle. The only difference is that GUSUMS was able to
calculate the exact units of time in a week and day using the smallest possible
unit of time in identifying the exact units of time. The result showed that
based on a 24 hour clock, our units of time are off by about 20 seconds each
day and about 2 hours each year. In addition, GUSUMS showed that Units of time
are based on multiples of 6 and not 10, and that there are also other smaller
units of time in between that we often ignore.
Deriving Units of Time
Multiple and Factor
From the origins of
numbering and the origins of dimensions, GUSUMS showed that numbers, numbering,
units, and values are based on the circle. Thus, a single point represents the
zero dimension or the smallest value of measurement while a circle represents
the subsequent complete unit of measurement. Thus, in sacred geometry, the
factor is what in the middle (starting with the dot) and the multiple is the
number of factors in the subsequent circle (starting with the first circle).
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| The Concept of multiple and factor |
Based on this the dot
thus represents a unit of time while the first circle represents the first
multiple of time
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| Representation of Multiple and Factor in Time Measurement |
The number of Factors in the First Unit
Since time is best on
the concepts of rotation, to get the number of factors in the first unit, we
need to circumnavigate the original circle to identify the number of equal
divisions or points that can be formed of equal sizes as time is the measure of
differences. To do this, we need to move to any point on the original circle
and rotation around it to get the number of factors that make the first units
of time or the number of factors contained in it.
Circle 1
Thus, we first move to
Point B and draw a circle whose center will be point b and whose radius will be
from point B to the original Circle.
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| The first Circle |
Circle 2
As the goal is to mark
a complete rotation around the original circle, we then move to the left of
point B where the first circle and the original circle intersect and mark a
point C. We can then draw a circle from point C whose center will be point C
and the radius will be from point C to the center of the original Circle.
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| The Second Circle |
Circle 3
Moving to the left of
the circle drawn from point C, we can mark another point D where the second
circle intersect with the circumference of the original circle and draw another
circle by repeating the same process.
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| The Third Circle |
Circle 4
From point D we can
repeat the same procedure by marking another intersection as point E and
drawing another circle.
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| The Fourth Circle |
Circle 5
We can then mark
another point as F and repeat the same procedure.
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| The Fifth Circle |
Circle 6
Final we can mark
another point as G and draw a final circle to complete the rotation. The result
of this is the seed of life with 6 units of time.
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| The 6th Circle |
Multiples of time
The First Multiple of Time
From the seed of life,
we can thus note that the first multiple of time contains 6 units or 6 events
which as it marks a complete rotation around the first unit of time.
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| First Multiple of Time Contains 6 units or divisions |
The Second Multiple of Time
Based on the concept of
rotation and revolution, the second multiple of time contains 36 units of time.
This is because it takes 6 additional circles similar to the first circle to
rotate around the first circle with 6 units of time. The units of time are 36
as each individual circle contains 6 divisions.
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| The second multiple of time contains 36 units of time |
The Third Unit of Time
The Unit that follows
contains 216 factors. This is because it also takes 6 additional circles of
equal measures to the second with 36 divisions or units of time to go around the second unit or
division of time.
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| Third Multiple of Time contains 216 units of time |
From the above, we can
note that the units of time are based on multiples or the powers of 6. Thus, moving from one
unit to another requires multiplying the previous units by 6. This is
summarized in the table below.
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| Units of time derived by GUSUMS |
Current Measures of Time
From our current
measures of time, a week has 7 days, a day has 24 hours, an hour has 60
minutes, and a minute has 60 seconds. Thus, we can summarize the multiples and
multipliers of time in a week as shown below.
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| Currents measures of time up to a week and their conversion |
Since we know our
current values are not that much off, we can look at the current values and
identify similar units from the figures gotten from sacred geometry. In doing
so, we should note that a second is equal to 100 units of time. From the above
we can note the following values that are similar to ours.
Thus, the table shows
that there are;
- 6^10 or 6046617 units of time represents the sub-units of seconds in a week
- 6^9 or 10077696 units of time represents the sub-units of minutes in a week
- 6^8 or 1679616 units of time represents the sub-units of hours in a week
Conversion to Actual time
To convert the units of
time in a week to actual values, we divide the sub-units of seconds by 100, the
sub-units of minutes by 1000, and the sub-units of hours by 10000.
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| Actual Value of time in a week |
Dividing the above
value by 7, we can the number of minutes,seconds, and hours in a day.
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| Actual Values of Units of Time in a Week and Day as Derived by GUSUMS |
Link to the Book: The Gregorian Universal System and Units of Measurement System (GUSUMS): The Art of Mathematics
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