Answer:
Computer forensics is the application of investigation and analysis techniques to gather and preserve evidence from a particular computing device in a way that is suitable for presentation in a court of law. The goal of computer forensics is to perform a structured investigation and maintain a documented chain of evidence to find out exactly what happened on a computing device and who was responsible for it.
Explanation:
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Was this in reference to literal audio archives? If so, I don't see any cons beside possible copyright infringement.
If you're talking about the codecs themselves, then I can do that.
<span>Pros:
</span>- Widespread acceptance. Supported in nearly all hardware devices, and continually adopted by newer ones.
- Faster decoding. Much more so than FLAC, Vorbis, etc.
- Relaxed licensing schedule.
<span>Cons:
</span><span>
</span>- Lower quality and efficiency than most modern codecs. (To be fair, never really noticed this one).
- Sometimes the maximum bitrate isn't enough.
- Pretty much void/unusable for high definition audio (higher than <span>48kHz).</span>
The answer is C, ROM often stores the basic instructions a computer needs when powering on, part if the BIOS.
Answer:
A. 4 CPUs and 6 megabyte cache memory
B. 1.3157 x10^-9 nanoseconds
Explanation:
The Intel core i5 7500 is a seventh generation central processing unit with a 4 CPU core and a 6 megabyte cache memory. It executes task at a clock cycle of 5 clock cycle at a speed of 3.8 GHz.
The relationship between frequency and clock cycle is,
Clock cycle = 1 / ( frequent).
So, One clock cycle = 1 / 3.8 GHz
= 0.3 x10^-9
For five clock cycles = 5 x 0.3 x10^-9
= 1.3157 x10^-9 nanoseconds.
