inary code is the language that computers use. It is a series of 1s and 0s. 1 means that the switch is on and 0 means off.
Extrapolated answerBinary code is based on an exponential model of multiplication.The code can be used to define an infinitely large exact number to an infinite amount of decimal places. It can do this because the code itself can go on for as long as it needs to.It is arranged as follows:
1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4098, 8196, 16392, 32784.... etc etc
Multiply any given number by two and you have the next number in the series.
So where do the 0s & 1s fit in? First it should be noted that in the answer above, a "switch" does not mean a physical switch. It is a CONDITION. Once the condition is met the "switch" is on. In the code above, each number is its own "switch" (condition). The state of the switch is determined by a 0 or 1.
So lets say you want to define the number 43710 in binary code. The code would be as follows:
0101010101010101.
Why? Because in the number 43710 there is: one 32784, one 8196, one 2048, one 512, one 128, one 32, one 8 and one 2 (add these numbers to each other and you have 43710). The length of a line of binary code is determined by the number that it produces (longer numbers mean longer lines of code).
The number that is produced, then becomes a "switch" (condition) itself and is set true or false by other lines of binary code.
Further lines of code generate similar numbers which are crunched through a series of mathematical equations in order to produce a language that we can understand. That language could be a visual pattern of colours, shapes or lines, it could be an audible noise or sound, or music even, or it could just be text on a sceen or piece of paper, or it could be all of these combined.
Binary code is not written by humans, it is written by machines. It has no usefull function to us as humans other than to simplify the definition of inordinatly large numbers.
The reference in the original answer to binary being a "computer" language, while true, lacks the specific definition of what exactly a computer is. A computer is more than something you buy from PC world, then take home and play games on. The term can be used to describe any machine that has the ability to transform languages (including the language of mathematics) into code (abbreviated) form. Early computers were nothing more than big rooms full of gears, cams and con-rods, and all they did was crunch numbers. They were big calculators, and in essence, that is all a modern computer is, albeit a fancy calculator!
Bit, short for Binary Digit.
Information is stored in some kind of binary format in computers because computer memory is made out of binary digits (bits).
In terms of digital information, most data in a computer is represented using binary, which is a system expressed in zeros and ones. Binary code is used to represent the instructions and data that the computer processes. However, there are also other systems and components in a computer that may not be strictly binary, such as analog signals in input/output devices.
I think its something like this {| ! width="30%" | Letter ! Binary Code | A01000001B01000010C01000011D01000100E01000101F01000110G01000111H01001000I01001001J01001010K01001011L01001100M01001101N01001110O01001111P01010000Q01010001R01010010S01010011T01010100U01010101V01010110W01010111X01011000Y01011001Z01011010 and ! width="30%" | Letter ! Binary Code | a01100001b01100010c01100011d01100100e01100101f01100110g01100111h01101000i01101001j01101010k01101011l01101100m01101101n01101110o01101111p01110000q01110001r01110010s01110011t01110100u01110101v01110110w01110111x01111000y01111001z01111010 |}
The binary code for eleven is 1011. 1011 = 23 + 21 + 20 = 8 + 2 + 1
For most digital computers at the lowest level, they work in binary. Experimental multilevel computers have been built and analogue computers don't work in binary.
yes
The binary value of the decimal number 57 (fifty seven) is 00111001According to three different decimal to binary converters I tried, the decimal number 57 is expressed in binary as 111001. Being able to convert to binary is important because binary is what computers work in.
Binary systems appear in many ancient cultures. The earliest is believed to be the I Ching, a Chinese philosophical text that dates back to the 9th century BC. Other early examples of binary systems include the Mangarevan invention of binary steps for arithmetic, Shao Yang's binary arrangement of hexagrams, and Pingala's work on prosody. The modern binary number system was studied by Gottfried Leibniz in 1679. Leibniz published a work in 1703 that describes the binary system of the Chinese and his own system of binary numbers. Leibniz attributed the invention of binary system to Fuxi.
it is a sequence of 1s and 0s. (binary) :)
Not very. Although normal scientific calculators are programmed in binary arithmetic, they are programmed so that input and output are in decimal (or hexadecimal) and not binary. So it would be hard work.
Computers primarilary work with the Binary numbering system (0 and 1) which is known as Base 2.
Binary what? Binary numbers? Binary stars? Binary fission?
One of the propounders of the binary star theories is the German astronomer Friedrich Wilhelm Bessel. Bessel was a pioneering figure in the field of astronomy and made significant contributions to the study of binary star systems. His work laid the foundation for our understanding of how binary stars interact and evolve over time.
The executable files are usually in binary form. They are usually understood by the operating system.
No, binary is a number system.A binary digit is called a bit.
Infinite (and binary).