Excel stores dates as a decimal number. The whole number part is the number of days since
1 Jan 1900, while the fractional part is the fraction of a day since midnight (0.5 would be noon). If you were to format the cells to include the year, you’d find the highlighted cell converted to
23 Apr 2018 00:00:00 - perfect!
If you look at the raw number, it’s
3,733,603,200. Divide this by
60 to convert seconds into minutes, then again by
60 to convert minutes into hours - and you get the exact number in your question:
00 minutes, and
If you then divide this number by
24 to convert hours into days, you get (exactly)
43,213. If you ask Excel to format a cell with this number as a full date, you’ll get the previous
23 Apr 2018 - there are 43,213 days from 1 Jan 1900 to 23 Apr 2018.
SPSS date variables are stored internally as the number of seconds since
14 Oct 1582 00:00:00, so you’d (normally) have to do some complicated maths! Luckily, you simply need to add the number of days between the two “epochs” -
115,859 - but don’t forget to convert this to seconds! Multiply it by
24 * 60 * 60 first (
Note that V3 and V5 are NOT 24-hour time. Some are marked as “
am”, so the
18 must be the date of the month, not the hours - also note the lack of colon!
I couldn’t help myself: I had to add this extra bit.
Why did IBM choose such a weird start epoch?
14 Oct 1582 happens to be the first day of the (then) new Gregorian calendar, instituted by Pope Gregory II. The day before was
5 Oct 1582 - accounting for those missing days makes for some horrible mathematics, so IBM just avoided it.
The missing days were to make up for all the mistaken extra days they’d added in previous centuries for Leap Years that shouldn’t have been (those years that could divide by 100, but not 400).