Delo Letter Academic

Dear Esteemed Scholar,

I am writing to share with you a pioneering discovery that has been the result of years of dedicated research and refinement. I have developed a unique calendar system, an integration of three ancient timekeeping methodologies—Lunar, Solar, and Gregorian—designed to harness their combined precision for a modern representation of celestial mechanics.

At the core of this innovative calendar lies the dynamic motion of the Earth, Moon, and Sun, further enriched by the Sun's orbital movement in three directions, reflecting its majestic course through the Milky Way galaxy. Symbolically linked to black hole dynamics, this model enables the prediction of celestial events, including solar flares, based on their correlation with cosmic gravitational forces.

The calendar serves as both a scientific tool and an educational resource, allowing users to visualize complex astronomical phenomena effortlessly. To better illustrate its functionality, I invite you to view a comprehensive video demonstration available via the link below, guiding you through its structure and applications.

Additionally, I encourage you to explore a second link provided below the video, which presents the live operation of this multi-layered calendar. Beyond its time-tracking capacity, it offers a powerful means to study and forecast past and future astronomical events, potentially unlocking new insights into cosmic cycles.

Key Resources:

  • Instructional Video: [YouTube Video Link]

  • Live Calendar Demonstration: [Calendar Link]

  • Eclipse Date Records (153 years pre- and post-2020): [Past] [Future]

  • 306-Year Eclipse Cycle with Orbital Patterns: [Link]

  • 18-Year Eclipse Cycle Diagrams: [Link]

  • Sun and Planetary Motions in the Zodiac: [Link]

This calendar has undergone extensive testing and refinement over several years. Throughout this process, I have meticulously examined its accuracy and functionality to ensure it meets the highest standards of reliability. Now, I humbly invite you, as a respected figure in the academic community, to critically assess its methodology and validate its findings. Should the model prove inaccurate, I welcome constructive challenges that can further its development.

I greatly value the insights that scholars like yourself can offer and believe this discovery has the potential to contribute significantly to the study of celestial mechanics and timekeeping systems.

Thank you for your time and consideration. I look forward to the possibility of your valuable feedback.

With deepest respect,

Amir Amini