Wiki User
∙ 10y agoNo, since the statement is incomplete.
Wiki User
∙ 10y agoFour. And that is true for every year in the modern calendar.
It seems reasonable to assume that the calendar mentioned is for exactly twelve months. Such a calendar will usually have 52 Thursdays, but will have 53 when a) the first day of the calendar is a Thursday, and b) the second day of the calendar is a Thursday and the calendar includes 29 February (which of course occurs only in a leap year). In both these cases the last day of the calendar is a Thursday, except when (a) is true and the calendar contains 29 February; then the last day will be a Friday Every day of the week could be subject to precisely the same analysis.
Yes, it is true.
It is not true.
True.
Four. And that is true for every year in the modern calendar.
True
not at all.
It seems reasonable to assume that the calendar mentioned is for exactly twelve months. Such a calendar will usually have 52 Thursdays, but will have 53 when a) the first day of the calendar is a Thursday, and b) the second day of the calendar is a Thursday and the calendar includes 29 February (which of course occurs only in a leap year). In both these cases the last day of the calendar is a Thursday, except when (a) is true and the calendar contains 29 February; then the last day will be a Friday Every day of the week could be subject to precisely the same analysis.
The last four months of the year are named after numbers. September (from the Latin for seventh month), October (8th), November (9th), and December (10th). But wait! Isn't October the 10th month? Isn't December the 12th month? Of course they are. These names come from the Latin words (Septimus, Octavus, Nonus, Decimus) but date from a calendar that had only 10 months. Two months named for emperors (Caesar Julius, Caesar Augustus) were inserted into the new "Julian" calendar, leaving us with the word for 8th month attached to our 10th month. Silly? Yes. True? Yes.
Yes, it is true.
No. See you on the 22 of December 2012.
True Blue and Gold.
true
It can be but it is not always true.
Only time will tell. Perhaps it truly is a prediction of the end of time . Or perhaps it is like the modern Julian calendar-- December 31st is the last day and you simply start a new calendar
Yes, no irrational numbers are whole numbers.