Computing The Time Elements (hh, mm, ss)
There are slightly different procedures for computing the time elements (
hh,mm,ss ) depending on the starting argument and the type of time we are computing. e.g. is it an actual time of day or a fraction of a day converted into equivalent time elements.
All times used here will be expressed in the universal standard 00 h to 24 h format.
There are three basic sources of fractions that will be converted into time elements.
Algorithm 2a:
Given any general JD number, compute the time elements ( hh,mm,ss ) from its decimal part. These time elements are will all equate to integer values with the seconds value (ss ) rounded-off to the nearest second.
uu = JD + 0.5 hours = 24*(uu - floor(uu)) hh = floor(hours) minutes = 60*(hours - hh) mm = floor(minutes) seconds = 60*(minutes - mm) ss = floor(seconds + 0.5) RANDOM EXAMPLE 1: Given: JD = 2463623.418149262279
To find the time of day elements ( hh,mm,ss ) from the decimal part of any general JD number:
JD = 2463623.418149262279 uu = JD + 0.5 = 2463623.918149262279 hours = 24*(uu - floor(uu)) = 22.035582292825 hh = floor(hours) = 22 minutes = 60*(hours - hh) = 2.134937569499 mm = floor(minutes) = 02 seconds = 60*(minutes - mm) = 08.096 ss = floor(seconds + 0.5) = 08So the time of day elements, in this case, work out to: hh:mm:ss = 22:02:08 = 22h 02m 08s resolved to the nearest second.
Algorithm 2b:
Given a (± DayFrac ) value, compute the corresponding time elements (TimeSignVal, hh, mm, ss )
if DayFrac < 0 then TimeSignVal = -1 else TimeSignVal = 1 hours = TimeSignVal * 24 * DayFrac hh = floor(hours) minutes = 60*(hours - hh) mm = floor(minutes) seconds = 60*(minutes - mm) ss = floor(seconds + 0.5)or TimeSignVal = (DayFrac < 0)? -1:1 hours = TimeSignVal * 24 * DayFrac hh = floor(hours) minutes = 60*(hours - hh) mm = floor(minutes) seconds = 60*(minutes - mm) ss = floor(seconds + 0.5) RANDOM EXAMPLE 2: Given: DayFrac = 0.6965896938458929
To find the time elements ( TimeSignVal, hh,mm,ss ) corresponding to day fraction (±DayFrac ):
TimeSignVal = (DayFrac < 0)? -1:1 = 1 hours = TimeSignVal * 24 * DayFrac = 16.718152652301 hh = floor(hours) = 16 minutes = 60*(hours - hh) = 43.089159138086 mm = floor(minutes) = 43 seconds = 60*(minutes - mm) = 05.350 ss = floor(seconds + 0.5) = 05So the time elements corresponding to the fraction of a day, in this case, work out to: hh:mm:ss = 16:43:05 = 16h 43m 05s resolved to the nearest second.
Algorithm 2c:
Given an ( ±hours ) value, compute the corresponding time elements (TimeSignVal, hh,mm,ss ).
if hours < 0 then TimeSignVal = -1 else TimeSignVal = 1 uu = TimeSignVal * hours hh = floor(uu) ww = 60*(uu - hh) mm = floor(ww) ss = 60*(ww - mm)or TimeSignVal = (hours < 0)? -1:1 uu = TimeSignVal * hours hh = floor(uu) ww = 60*(uu - hh) mm = floor(ww) ss = 60*(ww - mm) RANDOM EXAMPLE 3: Given: hours = 4.39192070646120
To find the time elements ( hh,mm,ss ) corresponding to the decimal (hours ) value:
TimeSign = (4.39192070646120 < 0)? -1:1 = 1 hours = 4.39192070646120 hh = floor(hours) = 04 ww = 60*(hours - hh) = 23.515242387672 mm = floor(ww) = 23 ss = 60*(ww - mm) = 30.915So the time elements, corresponding to the hours value, in this case, work out to: hh:mm:ss = 04:23:30.915 = 04h 23m 30.915s resolved to the nearest millisecond. © Jay Tanner - 2025
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