Verwenden Sie „decimal fraction“ in einem Satz
decimal fraction Beispielsätze
decimal fraction
1. n) High competitiveness in the prices and quality of the products through the elimination of the fixed cost and power of valorization with countless decimal fractions
2. as a number of years including decimal fraction of a year
3. Also… you cannot use any other mathematical symbols or values or numbers when it comes to correctly describing the Infinite Universe as a Totality except as a split organic fraction; not as a decimal fraction
4. this is the reason why literally all scientific measurements that try to be exact: end up in insane decimal fractions that never end, and cannot be simplified
5. This is why the value of Pi is an endlessly repeated decimal fraction of a vicious cycle
6. It is the imaginary, abstract measurement of absolutes: using fractional equivalents turned into decimal fractions, comparing apples to oranges: in terms of accumulation
7. d displays SAS time values as hours and decimal fractions of hours
8. d will print decimal fractions (e
9. format in that it displays seconds as opposed to decimal fractions of minutes
10. If there is a decimal point, the value following the decimal point is translated as a decimal fraction of seconds
11. It can read time values in the following formats, where hh corresponds to hours, mm corresponds to minutes, ss corresponds to seconds, and ff corresponds to decimal fractions of seconds
12. ff indicates decimal fractions of seconds and must be separated from the seconds by a decimal point (
13. Both seconds and their decimal fractions are assumed to be zero if they are not present
14. 5), the value following the decimal point is translated as a decimal fraction of seconds, and the value preceding the decimal point is considered to be seconds
15. d writes time values in the ISO 8601 basic time notation hhmmssffffff, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
16. The format writes the adjusted local time in the ISO 8601 basic time notation hhmmssffffff+|–hhmm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff represents decimal fraction of seconds, which is then followed by the time offset
17. ffffff+/-hh:mm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff represents decimal fraction of seconds, which is then followed by the time offset
18. d displays SAS time values without any adjustments using the ISO 8601 basic time notation hhmmssffffff+|-hhmm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff represents decimal fraction of seconds, which is then followed by the time offset from Coordinated Universal Time (UTC)
19. ffffff+/-hh:mm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff represents decimal fraction of seconds, which is then followed by the time offset from Coordinated Universal Time (UTC)
20. The format writes the UTC time in the ISO 8601 basic time notation hhmmssffffff+|-hhmm where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff represents decimal fraction of seconds, which is then followed by the time offset
21. d writes datetime values in the ISO 8601 basic datetime notation yyyyMMddThhmmssffffff, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
22. Note that there are no other delimiters in the ISO basic datetime string, including the decimal fractions, which might make the result difficult to read
23. ffffff, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
24. The format writes the adjusted local time in the ISO 8601 basic datetime and time zone notation yyyyMMddThhmmssffffff+|–hhmm, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
25. ffffff+/-hh:mm, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
26. d displays a SAS datetime value based on the zero meridian Coordinated Universal Time (UTC) in the ISO 8601 basic datetime and time zone notation yyyyMMddThhmmssffffff+|–hhmm, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
27. d reads time values in the ISO 8601 basic time notation hhmmssffffff, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
28. ffffff, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
29. d reads Coordinated Universal Time (UTC) time values using the ISO 8601 basic time notation hhmmssffffff,+|-hhmm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents zero-padded seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
30. ffffff+|-hh:mm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents zero-padded seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
31. ffffff+|–hh:mm, where hh represents zero-padded hours, mm represents zero-padded minutes, ss represents zero-padded seconds, and ffffff is decimal fractions of seconds, which is then followed by the time offset
32. d reads datetime values in the ISO 8601 basic datetime notation yyyyMMddThhmmssffffff, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is decimal fractions of seconds
33. Note that there are no other delimiters in the ISO basic datetime string, including the decimal fractions
34. d reads a SAS datetime value based on the zero meridian Coordinated Universal Time (UTC) in the ISO 8601 basic datetime and time zone notation yyyyMMddThhmmssffffff+|-hhmm, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is the decimal fraction of seconds
35. ffffff+|–hh:mm, where yyyy is the four-digit year, MM is the zero-padded month, dd is the zero-padded numerical day of the month, hh represents zero-padded hours, mm represents zero-padded minutes, ss represents seconds, and ffffff is the decimal fraction of seconds
36. fff, in the extended notation, where yyyy is the number of years, MM is the number of months, dd is number of days, hh represents number of hours, mm represents minutes, and ss represents seconds in the period, with fff as decimal fractions of seconds up to the millisecond
37. 4, SAS will automatically provide up to 3 decimal places for the seconds component of these values (indicated below by fff), regardless of significance (that is, if there is no decimal fraction of seconds, then zeros will be displayed)