There is basically one way to write hexadecimal numbers. Of course, the numbers represent information, and this information can be represented in may other ways; some of them are in binary (4 binary digits for each hexadecimal digit), in decimal, or each byte as as decimal number (as in the dotted decimal notation used for IP version 4 numbers).
Decimals can be "terminating" "recurring" or "other." A terminating decimal is one which is finite. Recurring and other decimals continue on forever. For instance 0.5 is a terminating decimal. 0.729 is a terminating decimal. 0.3333333... is not a terminating decimal. pi (3.1415926535....) is not a terminating decimal.
As compared to converting decimal into what other base! It is no more difficult to convert decimal into base 8 than decimal into binary or Hex.
It is 3.75 For any other decimal number, it is always possible to find infinitely many decimal numbers which are closer to 3.75
No. It is the other way round.
People often refer to the sections of a dotted decimal IP address as an octet for example, with the address 192.168.0.1, 192 is an octet, 168 is an octet, 0 is an octet and 1 is an octet. They call it this because each part of the IP address I just describes refers to 8 bits of the 32 bit IP address. Case and point: 192 = 11000000 168 = 10101000 0 = 00000000 1 = 00000001 To create the whole IP address in binary, I just put one after the other in the order they would appear in a IP address so 192.168.0.1 = 11000000101010000000000000000001. It's important to remember that every octet is 8 bits long hence why it's named an octet so, even though 0 in decimal is 0 in binary, in a IP address 0 in decimal is 00000000 in a IP address. Now that you understand how to convert a dotted decimal IP address into binary it should be clear how to change it back the other way around. Since your number is too long I am just gonna chop off the right most 1. Your first number, which is the left most 8 bits of the IP address is 10011100 which is 156 in decimal. We do this for each set of 8 bits afterwards so we would have: 10011100 = 156 00000001 = 1 11100110 = 230 00000011 = 4 This would create a final dotted decimal IP address of 156.1.230.1. Keep in mind your number is too long so I had to throw away a digit which means it may have been the wrong one and this isn't what the initial IP was supposed to be but now that you know the method you can re apply it to the proper binary IP address and see what the dotted decimal version is.
The dotted line stages are individual time trial stages. The other dotted lines are visual representations of where the next days stage will begin.
There is basically one way to write hexadecimal numbers. Of course, the numbers represent information, and this information can be represented in may other ways; some of them are in binary (4 binary digits for each hexadecimal digit), in decimal, or each byte as as decimal number (as in the dotted decimal notation used for IP version 4 numbers).
The physical address is in binary, just like everything else in the computer. Other bases, such as octal, (decimal,) and hexadecimal are simply representations for our convenience.
There are a couple other ways to refer to a MAC address. One could use the full name, media access control address, rather than the acronym. A MAC address could also be referred to a UAA, or universally administered address.
There are three (3) crotchets in a dotted minim.
False. The correct answer is "If two independent clauses are connected by a semicolon, the dotted line goes straight from one verb to the other." (A+)
How many dotted quarter note equal eighth note
you can find it at island 6 at dotted hole . To open it, use cut .
When the number is greater
0.5 is the only decimal that will qualify as a decimal value for 1/2
Since 16.53 is already written as a decimal, there is no other "decimal equivalent" of the number.