0x9c is the hexadecimal version of a byte, and 0xfffff880009f6b70 is the least significant four bytes in the hexadecimal representation of that byte.
The number 0x9c is the same as the binary representation of the one-byte number 0x9c (0x0, 0xfffff880009f6b70).
0x9c is the hexadecimal version of a byte, and 0xfffff880009f6b70 is the least significant four bytes in the hexadecimal representation of that byte.
0x9c is the binary representation of the number 0x9c 0x0, 0xfffff880009f6b70, and, as you’ve probably guessed, 0xfffff880009f6b70 is the least significant four bytes in that representation.
The one-byte number 0x9c 0x0, 0xfffff880009f6b70, however, is the hexadecimal representation of the binary number 0x0000000000009c 0xfffff880009f6b70.
The most obvious way to see a number is to convert it to binary. The binary number is represented by a string with a single byte at the end. The hexadecimal number is represented by a string with three bytes at the end.
The number 0xfffff880009f6b70 is equal to 0xfffff880009f6b70.The hexadecimal representation of the binary number 0xffffffffffffffff is exactly the same as 0xFFFFFFFFFFFFFFFFFFFF.
When you’re looking at a binary number, the decimal point (0xffffffc) is represented by the binary number 0xFFFFFFFFffffffff. This means that the decimal point represents the binary number 0xffffffffffff.
The binary number 0xffffffffffffffff is exactly the same as 0xFFFFFFFFFFFFFFFFFFFF.
This is important because binary numbers are only 2 bytes long, but they are still 4 bytes long. A binary number is a number that is equal to 0x0 if it is not equal to 0xffffffff and 0x0 if it is equal to 0xffffffff. This means that 0xFFFFFFFFFFFFFFFFFFFF is the same as 0xFFFFFFFFFFFFFFFF, which is 0xFFFFFFFFffffffff.
