360-Day Midpoint Every (1) Year
Lunar / Solar Calendar Year
 
360-Days
-5.25 Days                                     +5.25 Days
354.75 Day-Lunar-Year                   365.25 Day-Solar-Year
Lunar-Side Time Split                     Solar-Side Time Split

12 Months per Year x 30 Day-Months = 360 Day Midpoint Length of Year
-5.25 Day-Lunar-Side and +5.25 Day-Solar-Side

10.5 Days of Lunar/Solar Time Split Every Year Figure 1

Ten-and-one-half days compare with eleven days to separate lunar and solar lengths of a year. Adjusting the lunar year to 354-days for computations and dividing by 12-lunar-months makes each lunar month about 29.5-days long. A 29.5-day length of month was very close to the actual 29.53-day-month and often approximated to a 30-day-lunar-month. The 29.5-day-month may have been interchangeable with lunar months of 30-days. Twelve lunar months of 30-days each amount to 360-days and establish the basic 360-day midpoint supposition behind early calendars. The given 360-day-Tun-year is the midpoint between lunar years and solar years. Both lunar and solar years evenly balance at the 360-day midpoint. The 360-day fulcrum midpoint evenly divides lunar-sides and solar-sides of the calendar.

Cultures worldwide largely identified with dual concepts of a feminine, lunar-side and a masculine, solar-side to time. The masculine solar-side of reckoning allocates solar-side periods. Male deities had female counterparts. For example, the Egyptian Osiris pairs with Isis in Egyptian mythology. Baal often pairs with Astarte in Babylonian lore. Cultivation properly depended on growing and harvest times of the calendar. The annual Nile flooding season was associated with Sothis. The Old Testament Astarte or Asheroth, was thought to provide blessings to groves and vineyards. The 360-day-Tun-year serves to reference a set number of days to be either feminine or masculine in nature. Effectively, time splits at the 360-day midpoint length to attribute about 5.25-days to the lunar-side and 5.25-days to the solar-side for a single, one year. This hypothesis of God (or gods) coming between is reiterated and carried forth in early calendar math.

Masculine notation implies the parallel solar-side time split 5.25-day addition to a 360-day-Tun-year. The solar year approximates to 365.25 days here. Solar-side time split amounts 5.25-days of difference between a 360-day midpoint length of year and a modern year having 365.25-days. Past calendars sometimes included our modern leap day fraction of about one-quarter day per year. The ancient propensity to assign masculine, sun-side and feminine, moon-side characteristics to lunar/solar intercalations exaggerates for the greater 20-year-l/s-cycle.

Understanding the 10.5-days of lunar/solar time split is instrumental to lengthy l/s calendar recording. Lunar/solar separation time split measuring 10.5-days per year builds in multiples that respect cycles of years. One multiple of a 20-year-l/s-cycle produces 210-days of l/s separation time. Equation 4 multiplies 10.5-days of l/s separation time by a 20-year cycle to arrive at 210-days of l/s separation time. Approximating 209-days of l/s separation time to 210-days of time split expands the 19-year lunar/solar cycle to a 20-year-l/s-cycle. Attributing half of lunar/solar separation to either feminine or masculine time is analogous to languages that have masculine and feminine genders of words. A word in a sentence must respond according to principles of grammar and meaning. Developing the dual feminine/masculine gender emphasizes ancient notions of time. Calendar science is a matter of style and application that describe units of time.

Alignment with calendar tools includes a feminine/masculine duality and reinforcement of the sacred number seven. Seven-days of the week reference the monthly fertility issue. Numerically matching 7-intercalary-months reinforces 7-day-weeks in the 20-year l/s cycle. The equivalent 210-days of l/s separation time result from seven 30-day-months (Eqn. 5). Equation 6 employs the divide by two, time split tool to show equal halves of 105-days each for the lunar-side and solar-side of a 20-year-lunar/solar-cycle.

Equations 4-6

4.    Lunar/Solar Separation Time for 20-Year-L/S-Cycle
10.5 days of lunar/solar separation time
x 20 year-l/s-cycle
= 210 days of l/s separation time

5.    Lunar/Solar Separation Time for 20-Year-L/S-Cycle
7 intercalary-months
x 30 days
= 210 days of l/s separation time

6.    Time Split Calendar Tool for 20-Year-L/S-Cycle
210 days of l/s separation time per 20-year-l/s-cycle
÷  2 time split calendar tool (divide by 2)
= 105 days for feminine, lunar-side time split
= 105 days for masculine, solar-side time split

210-Day L/S Time Split for a 20-Year Cycle

Central and South American people such as the Maya, Inca and Aztecs commonly approximated these same 209-days of lunar/solar separation time to be 210-days, or seven even months of 30-days each following 19-years of recognition. The twentieth year offered the next building block to time progression. The twentieth year of the lunar/solar calendar marks the time split that cuts 210-days in half (Eqn. 6). The lunar-side time split is 105-days in equation 7. Lunar-side separation time was feminine for years up to and including 360-day-Tun-years (Eqn. 1). The solar-side time split assigns 105-days to the male solar-side of the calendar (Eqn. 8). Ancient theology supporting the 20-year lunar/solar cycle supplies two equal halves of 105-days. Masculine and feminine genders describe the time splits according to layers. The female/male time analogy naturally results in the next offspring layer. The calendar measures by documenting generations. The fundamental 20-year lunar/solar system results in 210-days of lunar/solar separation time. The outcome is time split to become 105-days each for the lunar-side and solar-side.

Babylonian influence during the time of Ezra gave names to the months. Hebrews originally numbered the months. Masculine and feminine energies impart or strengthen from nearby cultures. The 19-year-l/s-cycle mixed with Jewish holiday periods and the 50-year Jubilee sequence. The total number of intercalary days varied to be either 209-days or 210-days. Some cultures even changed the calendar days at dawn. Two and one-half 20-year-l/s-cycles are equal to one 50-year Jubilee Cycle. The same number of intercalary days would apply for 525-days l/s separation time.

Middle Eastern calendars likely intercalated 7-months as 209-days of l/s separation time. Jewish, Babylonian and nearby sub-cultures were more nomadic. Precise solar calculations logically took place in the lasting cities of Egypt. Lunar observation identifies with mobile cultures. Observing Sabbath in seven days intervals reflects a lunar cosmology. Sabbath multiples of seven times seven days reckoned the Feast of Weeks. Extending Sabbath Days to Sabbath Years for the 50-Year Jubilee pattern emphasizes this philosophy. The ancient Egyptian Calendar closely links star and solar worship with a fixed culture. Mesoamerican cultures also had stationary ceremonial centers. Sighting equinoxes and solstices along favorite standing stones or obelisks feature a solar-side cosmology. The Egyptian Calendar is prone to have intercalated 210-days for a 20-year-l/s-cycle.

Equations 7-8

7.    Lunar-Side Time Split for 20-Year-L/S-Cycle
210 days of l/s separation time per 20-year-l/s cycle
÷  2 time split calendar tool (divide by 2)
= 105 days and half of l/s separation is attributed to Eve,
nighttime feminine gender, lunar-side time split per 20-year l/s cycle

8.    Solar-Side Time Split for 20-Year-L/S-Cycle
210 days of l/s separation time per 20-year l/s cycle
÷ 2 time split calendar tool (divide by 2)
= 105 days and half of l/s separation is attributed to Adam,
daylight masculine gender solar-side, time split per 20-year-l/s-cycle

360-Day Midpoint of 20-Year L/S Cycle

Every twentieth year of 365-days had two basic components: 105-days of sun-side time and the other portion of 260-days. Mesoamerican Calendars commonly used numerical matching to describe these two distinct, recurrent yearly elements having 105-days and 260-days. Archaeologists call the Mayan agricultural 260-day period a ritual Tzolken-year. This work will use the 260-day-Tzolken-sacred-year as basis for calculations. The 260-day-Tzolken-sacred-year began and ended on the same days within a 365-day normal solar year.

There are nuances of difference between the Mesoamerican and those of the Middle East. South and Central American people primarily focused their calendars upon the sun, stars and planetary Venus. Latitude of the Yucatan Peninsula played a role in substantiating the four cardinal points of the year: equinoxes and solstices. Aztec calendar shamans started their 52-year Calendar Round upon observing the Pleiades star cluster at zenith point. The Mayan Dresden Codex references 20-year-l/s-cycles according to the planet Venus. Venus is the mythological male god, Quetzalcoatl.
 
Shades of Egyptian mythology are contained in the lore of Quetzalcoatl. The resurrection story claims Quetzalcoatl was a ruling deity who traveled to the east to found a new empire. When he died, Venus appeared as a star to become the lord of dawn. A full cycle of visibility is complete in 584 days. The Dresden Venus Table records five full cycles in Maya calendar language to arrive at 2,920-days or 8-solar-years. The Dresden Codex is an elaborate document that mixes Mayan astronomy with the astrology.

210-Day Time Split for a 20-Year Cycle  Figure 2


360-Day Midpoint of a 20-Year
Lunar/Solar Calendar Cycle
 
360-Days
-5.25 Days                                     +5.25 Days
354.75 Day-Lunar-Year                   365.25 Day-Solar-Year
Lunar-Side Time Split     20-Year L/S Cycle     Solar-Side Time Split

   12 Months per Year x 30 Day-Months = 360 Days per Year
-105 Day-Lunar-Side and +105 Day-Solar-Side
 
209-Days of Lunar/Solar Time Split in 19 Years Approximate to:
210-Days of Lunar/Solar Time Split, or
±105-Days Lunar / Solar Time Split for a 20-Year Cycle

210-Day Time Split for a 20-Year Cycle  Figure 2

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Time_Splits_Adam_Seth video below extends the Time Split concept to multiple 400-year Baktun Cycles counted in the Holy_of_Holies.

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Splitting_of_Time Seven extra lunar months were the chosen standard practice that matched with the seven-day week. Middle Eastern calendars likely intercalated 7-months as 209-days of l/s separation time. The 360-day length of year was common in very early prehistory. Extending the single l/s calendar year to the Mayan “katun” 20-year multiple of the l/s calendar continues exactly this fundamental, approximate intercalation of 210-days. Any l/s calendar year of 360-days balances the difference between lunar years and solar years. The outcome is time split to become 105-days each for the lunar-side and solar-side. Cart Item SOT          Get PDF Instant Download Only .99 from Paypal-Payloadz - See more at: http://timeemits.com/AoA_Articles/Splitting_of_Time.htm#sthash.e69X3MAt.dpuf

Splitting_of_Time Seven extra lunar months were the chosen standard practice that matched with the seven-day week. Middle Eastern calendars likely intercalated 7-months as 209-days of l/s separation time. The 360-day length of year was common in very early prehistory. Extending the single l/s calendar year to the Mayan “katun” 20-year multiple of the l/s calendar continues exactly this fundamental, approximate intercalation of 210-days. Any l/s calendar year of 360-days balances the difference between lunar years and solar years. The outcome is time split to become 105-days each for the lunar-side and solar-side. Cart Item SOT          Get PDF Instant Download Only .99 from Paypal-Payloadz - See more at: http://timeemits.com/AoA_Articles/Splitting_of_Time.htm#sthash.e69X3MAt.dpuf

Splitting_of_Time Seven extra lunar months were the chosen standard practice that matched with the seven-day week. Middle Eastern calendars likely intercalated 7-months as 209-days of l/s separation time. The 360-day length of year was common in very early prehistory. Extending the single l/s calendar year to the Mayan “katun” 20-year multiple of the l/s calendar continues exactly this fundamental, approximate intercalation of 210-days. Any l/s calendar year of 360-days balances the difference between lunar years and solar years. The outcome is time split to become 105-days each for the lunar-side and solar-side.

Are you a pastor, educator or a student of the Holy Bible? Timeemits.com seeks anointed people to review and contribute to the Ages_of_Adam ministry. Ancient lunar/solar calendars like the Jewish and Mayan calendars provide the background to understanding early time. Ancient calendars of the Holy Bible use differences between the moon and sun, numerical matching and a 364-day calendar year to describe X-number of days that match with X-number of years. Ages_of_Adam is a free read at timeemits.

Are you a pastor, educator or a student of the Holy Bible? Timeemits.com seeks anointed people to review and contribute to the Ages_of_Adam ministry. Ancient lunar/solar calendars like the Jewish and Mayan calendars provide the background to understanding early time. Ancient calendars of the Holy Bible use differences between the moon and sun, numerical matching and a 364-day calendar year to describe X-number of days that match with X-number of years. Ages_of_Adam is a free read at timeemits.

tags splitting, intercalations, months, timeemits, Bible, Peninsula, Assyrian, Babylonian, Persian, lunar, solar, sun, Venus, Maya

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