# Determination of the True Dawn by Several Different Ways at Fayum in Egypt **Authors:** M.G. Rashed, Yasser A. Abdel-Hadi, M.S. El-Nawawy, M.Y. Amin, U.A. Rahoma, M.A. Semeida, A. Abul-Wafa, G.A. Goma, M. Sedek, M.M. Hussien, A.A. Elminawy, M.A. Shahat, A.H. Ibrahim, A.R. Mouner, A.H. Hassan, and Hussein M. Farid **Year:** 2022 **Journal:** International Journal of Mechanical Engineering and Technology (IJMET), 13(10): 8-24 **DOI:** https://doi.org/10.17605/OSF.IO/9K3MJ **URL:** https://iaeme.com/Home/article_id/IJMET_13_10_002 **Sites studied:** Wadi al Hitan, Fayum, Egypt (29 17'N, 30 03'E, 50m elevation) **Observation method:** SQM (LU-DL, Unihedron) in horizontal (H) and zenith (Z) directions, plus naked eye by groups of 9+ astronomers **Date range:** December 9-11, 2018 (Group 1) and December 19, 2019 (Group 2) **Records:** 4 nights of SQM data, 2 separate naked-eye group observations **Mean angle (Fajr):** D0 = 14.0 to 14.8 depending on method ## Location Details - Wadi al Hitan, Fayum desert, Egypt - 29 17'N, 30 03'E, 50m elevation - Desert area far from urban light pollution - Chosen specifically for astronomical observation quality ## Summary A multi-method study combining SQM photometry and naked-eye observations over 4 nights at Fayum desert. The paper applies four different criteria to determine true dawn: 1. Eye threshold method (0.83 mag from full night): D0 = 14.7 degrees 2. Naked eye group observation (9+ trained observers, tayakkun): D0 = 14.8 degrees 3. Kocifaj relation H = pi*Z: D0 = 14.0 degrees 4. Luminance threshold 0.015 cd/m2 (mesopic region): D0 = 13.75 degrees (clear), 10 degrees (cloudy) Key SQM findings: - Full night illuminance: 18.76 mag (east direction), 16.92 mag (zenith) for clear nights - Full night illuminance: 22 mag for cloudy night - The H/Z ratio equals pi at D0 = 14 degrees (Kocifaj criterion) - Clear vs cloudy comparison shows clouds delay apparent dawn by ~4 degrees Table 4 provides SQM readings at D0 = 6, 12, 14, 14.8, 18 degrees for Dec 19, 2019 in both east and zenith directions. This is valuable calibration data. Clouds absorb 19% of the night sky energy during full night and 2.5% during twilight. ## Data Availability **LIMITED PER-NIGHT DATA.** The paper presents: - SQM curves as figures for 4 nights (Dec 9, 10, 11 2018 + Dec 19 2019) - Table 4: SQM readings at specific D0 values for Dec 19, 2019 - Tables 2-3: Statistical values of twilight luminance energy per degree for Dec 10-11, 2018 - No per-minute time series data published The SQM curves in the figures could be digitized to extract approximate readings at specific D0 values, but the paper does not provide raw time-stamped SQM data. For ML training, the useful data points are: - Dec 9, 2018: clear night, SQM threshold at D0 = 14.6 degrees - Dec 10, 2018: clear night, mesopic threshold at D0 = 13.75 degrees - Dec 11, 2018: cloudy night, threshold at D0 = 10 degrees (excluded from ML, clouds) - Dec 19, 2019: clear night, D0 = 14.0 (H=piZ method), D0 = 14.8 (naked eye group) ## Comprehensive Literature Table Table 1 (page 12) provides an excellent summary of all published twilight studies chronologically from 1909 to 2022, covering Egypt, Libya, Saudi Arabia, Yemen, Indonesia, and Malaysia. This is a useful cross-reference for the aggregate D0 database. ## For ML Training Can extract 4 data points (one per clear night) with SQM-derived D0 values. The naked-eye group observation on Dec 19, 2019 gives D0 = 14.8 degrees. Only useful as aggregate/representative data since exact dawn times are not given (only D0 values derived from SQM threshold analysis).