Explain compression nature of solid
Answers
Answer:
In computing, solid compression is a method for data compression of multiple files, wherein all the uncompressed files are concatenated and treated as a single data block. Such an archive is called a solid archive. It is used natively in the 7z and RAR formats, as well as indirectly in [tar]-based formats such as [.tar.gz] and [.tar.bz2.] By contrast, the ZIP format is not solid because it stores separately compressed files (though solid compression can be emulated for small archives by combining the files into an uncompressed archive file and then compressing that archive file inside a second compressed ZIP file).
Explain:
Compressed file formats often feature both compression (storing the data in a small space) and archiving (storing multiple files and metadata in a single file). One can combine these in two natural ways:
- compress the individual files, and then archive into a single file;
- archive into a single data block, and then compress.
The order matters (these operations do not commute), and the latter is solid compression.
In Unix, compression and archiving are traditionally separate operations, which allows one to understand this distinction:
- Compressing individual files and then archiving would be a [tar] of [gzip]-compressed files – this is very uncommon.
- Archiving various uncompressed files via [tar] and then compressing yields a compressed archive: a [.tar.gz] file – this is solid compression.
Answer:
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Explanation:
The elasticity of solids leads to properties known as Tension and Compression, ideas to which we return to after we discuss the general
Like liquids, solids have high intermolecular forces that hold atoms and molecules in fixed positions. A crystalline solid is one in which the molecules or atoms are arranged in highly ordered repeating patterns. Some solids do not form crystals and do not behave as solids.
Solids will be compressed, resulting in lots of heat as this happens (with infinite pressure, and infinitely strong materials and thus force, the matter will give), until they reach a liquid state, gaseous state, or start losing electrons and ionizing, or just stays solid all the way up to Electron Degeneracy - it ...