C major and A minor have no sharps or flats.
The Boolean type is used to represent true or false values
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>
In the year 2028 I don't believe our digital video viewing experience would change too much considering most, if not all, the population is already satisfied with how easy, simple, and versatile our current experience is. If everything changes one thing will for sure remain unchanged. That one thing is cinemas, I don't think cinemas will ever change much as they provide a constant source of revenue while providing a place for family and friends to get together to watch a movie before it becomes available to other sources.
Both waves can have interference, reflection, and diffraction.
Wave interference is a phenomenon that occurs when two waves meet while traveling along the same medium. The interference of waves causes the medium to take on a shape that results from the net effect of the two individual waves upon the particles of the medium.
Wave reflection happens when a wave reaches the boundary between one medium and another medium, a portion of the wave undergoes reflection and a portion of the wave undergoes transmission across the boundary.
Wave diffraction<span> involves a change in direction of waves as they pass through an opening or around a barrier in their path.<span> </span></span>
