Temporal and this Gregorian calendar are anchored to Central Time making them consistent globally

 seasons line up with how they are in those arias it accounts for the daylight savings time in Texas

Dallas Time Rainy River Time 

Central Standard Time (CST) = UTC−6

Central Daylight Time (CDT) = UTC−5 during daylight saving months

nts:

days of year

28 day months new temporal calendar needs to align with Gregorian calendar, starts on Sunday, Sunday before Monday I think day 1 year 1

365-336=

29

28 29 30

364? 365? 366? leap

Christian Waldrip ( Christian Andrew Waldrip ) Invented The Temporal Calendar which has 28 days a month  labeled 1 through 28 it has 13 of them then a 14th month that has 1 Gregorian day or 2 adding one leap year day each leap year.

Temporal and Gregorian calendar are anchored to Central Time making them consistent globally great for travel

Each month Starts on a Sunday and each year starts on a Sunday the days line up with

Gregorian days of the week

The Temporal Calendar, invented by Christian Waldrip, offers a streamlined approach to timekeeping. Anchored to Central Time, it's globally consistent and intuitive for planning. With each month having 28 days and starting on a Sunday, future planning is a breeze, as the days line up perfectly week to week without any shifting, making it easier to plan both locally and globally. 

using a fixed formula or lookup table. When built into a time machine interface, this converter instantly normalizes dates across eras, so you always see “Month X, Day Y” in the same 28-day/month, Sunday-start format. This eliminates the need to juggle varying month lengths or shifting weekdays, letting you focus on the mission rather than calendar arithmetic. 

Benefits for Past, Present, and Future Dates

• Predictable alignment: Every date lands on the same weekday every year, simplifying interval calculations for historians and planners.

• Universal anchor: Central Time anchoring ensures that no matter where—or when—you travel, you reference the same global standard.

• Intuitive planning: Jumping from yesterday to centuries ago or centuries ahead doesn’t change the calendar’s rhythm; you instantly recognize patterns.

Pre-Computer Era Accessibility

Before digital tools, early adopters could carry printed conversion tables or pocket calculators programmed with the Temporal formula. Manual conversion remains as simple as looking up the Gregorian year, month, and day in a chart—no slide rule magic required. This makes the system as approachable for 19th-century travelers as for modern time-machine pilots.

Why This Matters for Time Travel

Integrating the Temporal Calendar into your time-travel workflow removes calendar chaos from mission planning. Whether setting rendezvous points across centuries or logging observations in a consistent date format, you gain clarity, reduce errors, and streamline coordination. It’s a universal timekeeping framework that transcends eras, making every “when” as reliable as every “where.”

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Pre-Digital Era Utility of the Temporal Calendar

Consistent, Easy Arithmetic

Every month has exactly 28 days and always begins on a Sunday. This uniformity lets anyone perform date arithmetic with nothing more than simple addition and subtraction—no need to remember which months have 30 or 31 days, or leap-year rules. Farmers, merchants, and clerks could calculate intervals (for rent, harvest cycles, or shipments) on the back of an envelope.

Printed Conversion Tables and Almanacs

Long before electronic devices, you could carry a pocket-sized almanac that maps each Gregorian year, month, and day to its Temporal equivalent.

• A single chart page per year, listing 1–28 for each month column, makes lookups trivial.

• Annual almanacs could fold out into desk-pad calendars, doubling as both Gregorian and Temporal planners.

No slide rule or mental leap required—just sight-read the chart.

Mechanical and Desk-Clock Adaptations

Craftsmen could build perpetual Temporal calendars into clocks or desk tools:

1. A rotating cylinder engraved with 13 months of 28 days, plus the extra “year-ender” days.

2. A spring-loaded pointer that always resets to Sunday on day 1.

3. Calendar wheels that advance one slot per day—no complex gearing changes for month-end.

These devices automate conversion in a purely mechanical way, ideal for offices and post-1910 mechanical workshop environments.

Applications in Agriculture, Religion, and Global Trade

• Agricultural planning gains precision: planting, fertilizing, and harvesting cycles repeat every four weeks exactly.

• Religious and civic observances keep the same weekday dates year-to-year, simplifying community calendars and pilgrimages.

• Merchants trading overseas align shipment dates without consulting distant time-zone offices, because Central Time anchoring provides one shared global reference.

Historical Research and Record-Keeping

Researchers, scribes, and chroniclers charting events centuries back—or planning re-enactments—benefit from a calendar that never shifts. When you ask “What day of the week was July 15, 1543?” you convert it with the same table you’d use for 2050, and instantly know it’s Temporal Month 7, Day 15, Sunday.