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: `1,037,112`

hours, `00`

minutes, and `00.0`

seconds.

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 (`10,010,217,600`

).

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).