Initially Charles Babbage's difference engine could only be made to execute tasks by changing the gears which executed the calculations. Thus, the earliest form of a computer language was physical motion. Eventually, physical motion was replaced by electrical signals when the US Government built Von Neumann's ENIAC in 1942. This language followed many of the same principles of Babbage's "engine" and so, could only be "programmed" by presetting switches and rewiring the entire system for each new "program" or calculation. This process proved to be, as you can imagine based on todays systems very tedious.
In 1949, a few years after Von Neumann's work, the language "Short Code" was developed. It was the first computer language for electronic devices and it required the programmer to change its statements into 0's and 1's by hand. Although not fully following and very tirersome it was the first step towards the complex languages of today. In 1951, Grace Hopper wrote the first compiler, A-0. A compiler is a program that turns the language's statements into 0's and 1's for a computer to understand. This lead to faster programming, as the programmer no longer had to do the work by hand during the systems process and alos allowed for larger more complex processes to be undertaken.
In 1957, the first of the major languages appeared in the form of FORTRAN. its an abbreviation for FORmula TRANslating system. So basically the first language was in fact cogs and wheels.
ASCll (APEX)
ascii
Machine Language (Vaccum Tube)
ASCII
ASCII (apex)
The first electronic and digital computer is the Mark 1 Machine (also known as "Automatic Sequence Controlled Calculator").
Considering the wording of your question I would assume you mean computer mouse as a language and asking what circle is in the language computer mouse. Given that there is no such language I have no clue.
Machine language is the actual bits used to control the processor in the computer, usually viewed as a sequence of hexadecimal numbers (typically bytes). The processor reads these bits in from program memory, and the bits represent "instructions" as to what to do next.Thus machine language provides a way of entering instructions into a computer (whether through switches, punched tape, or a binary file).Assembly language is a more human readable view of machine language. Instead of representing the machine language as numbers, the instructions and registers are given names (typically abbreviated words, or mnemonics, eg ld means "load"). Unlike a high level language, assembler is very close to the machine language. The main abstractions (apart from the mnemonics) are the use of labels instead of fixed memory addresses, and comments.An assembly language program (ie a text file) is translated to machine language by an assembler. A disassemblerperforms the reverse function (although the comments and the names of labels will have been discarded in the assembler process).machine language faster than assembly language even than assembly language depend upon machine language
A computer is a programmable machine, which means that it can execute a programmed list of instructions and respond to new instructions that it is given.
mr. computer
At the lowest level, "machine code". At the Highest level, "a program".
ibligo
The instruction set of a computer is the collection of commands that its Central Processing Unit (CPU) can carry out natively. These are the things that the processor inherently knows how to do if asked.
charles babbage