Используйте «hexadecimal» в предложении
hexadecimal примеры предложений
hexadecimal
1. OCT$(number) just returns the equivalent Hexadecimal and Octal value of the number
2. For example, considering all the numbers are in hexadecimal and ASCII code
3. ing the first hexadecimal protest chant: 1-2-3-4, toss the law-
4. The result is a dump in hexadecimal format, which happens to be base 16
5. We will now repeat the process for octal and hexadecimal
6. This is the sequence of numbers you get if you count from 0 to 23 in base 16 or hexadecimal
7. Finally hexadecimal needs 16 characters so we have to add a few more that are not familiar to us, namely A, B, C, D, E and F
8. You can translate back and forth between the different number bases on the scientific PC calculator by entering 23 in base 10 and then switch to binary, octal or hexadecimal
9. Note that we could have a larger number in hexadecimal stored with fewer digits than in base 10
10. It may not be obvious but you can readily translate a number from binary to hexadecimal without much trouble
11. We may not understand it, but we will know that all those numbers represent working storage in hexadecimal or base 16
12. I applaud the idea of a hexadecimal calculator on the PC
13. switches, we called that hexadecimal but that quickly
14. The following URL has a list of hexadecimal color values: http://www
15. Using a w of 1 will display the month number as a hexadecimal value (1 through C)
16. writes a packed Julian date in hexadecimal format for IBM computers
17. The next one-and-a-half-bytes store the three-digit integer that corresponds to the day of the year, while the last half-byte is filled with hexadecimal 1s that indicate a positive number
18. reads a packed Julian date in hexadecimal format for IBM computers
19. also reads a packed Julian date in hexadecimal format for IBM computers
20. The next one-and-a-half-bytes store the three-digit integer that corresponds to the day of the year, while the last half-byte is filled with hexadecimal 1s, representing a positive number
21. • Service (1 byte) Contains the hexadecimal value O0, indicating that the system complies with the IEEE 802
22. In an Ethernet SNAP packet, the value for both the DSAP and SSAP fields is 170 (or 0xAA, in hexadecimal form)
23. The MAC Control frame is a standard Ethernet frame of minimum length (64 bytes) with the hexadecimal value 8808 in the Ethertype or SNAP Local Code field
24. The data field of the MAC Control frame contains a 2-byte operational code (opcode) with a hexadecimal value of 0001, indicating that it is a PAUSE frame
25. • Frame Control (FC), 1 byte Contains two symbols that indicate the function of the frame, using the following hexadecimal values:
26. • Address (1 byte) Contains a hexadecimal value of ff, indicating the packet is addressed to all stations
27. The only difference between them is how they format the value of data received by the publisher, that is, in hexadecimal and binary, respectively: