What is the content format?
Although the words shown on the computer screen appear in the language selected by the user, the computer does not understand English, French or other modern language. On its most basic level, the computer "speaks" only in binary, which is a language consisting of only two characters: "1" and "0." The content format is the middle man who sits between the natural code language of the computer and the output text shown on the screen and converts information from one to another and smoothes the interaction between man and the machine.
Think about the role of content format as an interpreter that can help you communicate with someone who speaks a foreign language. When entering information into the computer, the content format changes the characterized characters to the format that the computer understands. In addition, when the computer receives unprocessed data from a website or program, the content format converts these 1 and 0 back to the text and displays all the main information by a website or application. Without content format, the information on the screen would only be nEsmous reading binary computer code.
text displaying is the easiest way to understand content format, but also used to display other types of information on your computer such as audio and video files. Although it could be difficult to concept, information about the sound and video of the computer is transmitted by the same binary set 1 and 0 as everything else. The content format takes these characters and converts them into sounds and images, directs information via video and audio cards on your computer. Similarly, when you store a song or image on your computer, the content format stores this information on a hard disk in a binary format and provides an almost continuous "translation" every time the file is selected.
Content format can also be used to protect sensitive data by encryption. Encryption is the data coding process; Instead of translating it directly into a binary language, it converts information to KóDu. For example, think about the basic encryption code where the numbers represent letters: where A = 1, b = 2, etc. The content format does the same, only on a much more complex scale and protects information from random or deliberate capture by unauthorized parties. The encryption force is usually measured using its bitrate, so the 32 -bit encrypted file is stronger than the 16 -bit encrypted file.