The number 143 in binary is the eight-digit number 10001111. The digits in a binary number are exponents of 2 rather than 10, so that for an eight-digit number in binary, the digit places represent 128, 64, 32, 16, 8, 4, 2, 1 instead of increasing values of 10. 10001111 = 128 + (0x64) + (0x32) + (0x16) + 8 + 4 + 2 + 1 = 143
The binary number 11011010 is the decimal number 218. The digits in a binary number are exponents of 2 rather than 10, so that for an eight-digit number in binary, the digit places represent 128, 64, 32, 16, 8, 4, 2, 1 instead of increasing values of 10. 11011010 = 128 + 64 + (0x32) +16 + 8 + (0x4) + 2 + (0x1) = 218
A binary number containing eight bits is referred to as one "Byte". A binary number containing four bits is referred to as one "Nibble".
You make eight and one tenth 8.1 to be a decimal.
0.8
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 8s, as in the question.
100, 104.858, or 95.367, depending on if you mean decimal to decimal, binary to binary, decimal to binary, or binary to decimal. Simply, decimal megabytes, used by the storage industry, is 1,000KB, where each KB is 1,000 bytes. Binary megabytes, used by programmers (such as Microsoft, Linux, etc) are 1,024 KB, where each KB is 1,024 bytes (2^10, or 0x0200). Converting from decimal to binary will yield a smaller number of megabytes, while converting from binary to decimal will result in more megabytes.
The number 143 in binary is the eight-digit number 10001111. The digits in a binary number are exponents of 2 rather than 10, so that for an eight-digit number in binary, the digit places represent 128, 64, 32, 16, 8, 4, 2, 1 instead of increasing values of 10. 10001111 = 128 + (0x64) + (0x32) + (0x16) + 8 + 4 + 2 + 1 = 143
In short word form, 5.8 is written as "five and eight tenths." This representation breaks down the decimal number into its whole number (5) and decimal part (8 tenths). It is a way to express a decimal number in words to indicate the value of each digit's position.
It is 8 seconds. A decimal representation does not imply a change in the measurement units.
The binary number 11011010 is the decimal number 218. The digits in a binary number are exponents of 2 rather than 10, so that for an eight-digit number in binary, the digit places represent 128, 64, 32, 16, 8, 4, 2, 1 instead of increasing values of 10. 11011010 = 128 + 64 + (0x32) +16 + 8 + (0x4) + 2 + (0x1) = 218
For the decimal number system . . . 'Ten'. For the binary number system . . . 'Two' For the octal number system . . . 'Eight' For the hexidecimal number system . . . 'Sixteen' . . etc.
A binary number is a number expressed in base-2 numeral system, which uses only two digits: 0 and 1. When you say "of eight," it is unclear what you are referring to. If you are asking about the digit 8 in binary, it is represented as 1000.
A binary number containing eight bits is referred to as one "Byte". A binary number containing four bits is referred to as one "Nibble".
1010 (eight plus two)
1000.
Well, isn't that a happy little question! To write twenty-eight thousandths in decimal form, you simply write 0.028. Just imagine each number finding its own peaceful place after the decimal point, creating a beautiful and precise representation of twenty-eight thousandths.