The Truth About Vinyl - Vinyl vs. Digital

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The humble disc record is not often properly recognized for the impact its development

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had on the modern world.

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On the face of it, these records are just consumer products that allow music to be sold

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to the masses, a concept that itself only reached the mass market about 100 years ago.

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The truth is the impact of this technology goes way beyond consumption of pop music.

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In some way, the record’s closest comparison is the printing press.

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The printing press is often considered one of the most important inventions in history

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due to its ability to quickly and accurately reproduce ideas in written word; which in

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turn, greatly accelerated the transfer and exchange of knowledge.

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The ability to press audio to record so that it can be reproduced in scale did the exact

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same thing for audio.

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It functioned as a vector for cultural exchange and the revolution in recording technology

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ushered in by electronic and audio engineers that developed the technology is the foundation

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upon which modern communication systems stand upon.

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Of course, these days most of the music we consume is digital.

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The internet has changed not only the way we consume music, but also the amount of music

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[1] and the music itself [2].

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Curiously while this is happening vinyl is seeing a year on year increase in sales [3,4].

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Even more curious is the fact that half of the people who buy an album on vinyl stream

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it first [4] It remains a point of contention whether analog formats, such as vinyl, are

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actually superior to their modern day digital counterparts.

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Is vinyl’s resurgence just consumers seeing yesteryear’s technology through rose tinted

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glasses, a yearning for a physical connection to their music or does the music really sound

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better on vinyl?

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To understand the differences between these two we need to first understand the commonalities.

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No matter which format is used, analog or digital, both require audio data to be created

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by a recording device.

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The simplest of these would be the microphone which turns air pressure (sound) into a either

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a digital or analog signal, which can then be replayed as an electrical analog signal.

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This process was first put into use in 1877 by Thomas Edison.

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While working on the telephone, Edison decided that it may also be worth investigating if

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sound could be recorded for later reproduction.

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Edison designed a rotatable cylinder disc wrapped in thin foil which was turned by a

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hand crank.

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Attached to the disc was a needle, which in turn was attached to a mouthpiece which adjusted

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the pressure of needle on the disc.

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Edison talked into mouthpiece while turning the hand crank at a constant rate and as predicted,

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the pressure of the soundwaves imprinted a proportional indentation which was analogous

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to the sound his voice created.

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When he finished recording, he returned the needle to the start.

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The indentations which were caused by his voice could now be played back by rotating

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the cylinder.

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Playback of audio while showing phonograph working….

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This invention, the phonograph, was the first example of playable recorded sound and for

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all intents and purposes the vinyl record is essentially an iteration of this technology.

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The first vinyl recorded was pressed in 1948 by Columbia - specifically, it was this recording

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on 12 inch:

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- Record plays - Mendelssohn's Concerto in E Minor by Nathan

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Milstein on the violin with the New York Philharmonic

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Vinyl records work on the same basic principle as Edison’s phonograph.

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A 3d representation of a soundwave is physically pressed on to a vinyl record.

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An impression is first created by a cutting head.

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The cutting head creates an impression that is a direct analog of the soundwave.

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This process creates a master that will go to create a stamper that moulds each record.

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When a record is played the frequency of the wave that you will hear will depend on how

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stretched out the wave is on the media and the volume will depend on the size or amplitude

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of the wave.

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This audio information will be pressed on to vinyl in one of 3 fashions:

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via horizontal modulation Vertical modulation

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OR via a compromise modulation of 45 degrees Horizontal modulation is always preferable

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over vertical modulation.

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This is because vertical modulation leads to more distortion and allows for less amplitude

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due to an inability for the stylus to track the groove and also a propensity for the needle

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to bound off the wave if the amplitude is too high.

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But if we run with only horizontal modulation we can only play audio in mono and we don’t

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have stereo separation of sound.

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Accordingly, we use a compromise modulation of 45 degree in order to allow for separation

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of audio from mono to stereo.

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As the stylus follows the groove, it moves a magnet wrapped in a small coil of copper

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wire, this causes an electric current that corresponds to the groove on the vinyl, which

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in turn corresponds to the physical sound waves that were originally recorded.

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The electric current can now cause a physical movement of the speakers which will reproduce

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that sound pretty faithfully.

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Some vinyl enthusiasts argue that this smooth continuous reproduction of sound from analog

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to analog is more faithful than digital music Part of this argument stems from the difference

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in how digital music is reproduced - high quality digital audio data is typically sampled

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44,100 times per second and this data is recorded in binary format.

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Close inspection of the wave function produced from binary code shows that rather than the

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audio data being smooth and constant like real life, the audio data is jagged and technically

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non-continuous.

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Because there is an infinite amount of data between each second of audio, we have to sample

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the audio in regular intervals to minimise the size of our digital file.

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Comparing this to the smooth continuous waveform that is imprinted in vinyl you would think

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this might cause some loss in information.

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Whether there is loss of information or not depends on whether the 44,000 sample rate

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is high enough to be functionally the same.

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An answer to this was proposed in 1928 in a

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pivotal paper published by Swedish American electronic engineer Harry Nyquist [5], and

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was subsequently proven by Claude Shannon in 1949 [6].

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They simply found that to recreate a frequency we only need to sample each individual wave

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at least twice.

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If not, the frequency will be digitized with a lower frequency.

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The maximum perceivable frequency a human ear can detect is 20,000 Hz, and so digital

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recordings with a sampling rate of 44,000 Hz can capture even the highest frequency

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possible, thus the sound produced by a speaker using digital audio is effectively the same

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sound as analog recordings.

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In this case, the argument that analog recordings are more “faithful” does not meet the

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scrutiny of science and in theory digital and analog music recordings should sound functionally

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the same if played on the same equipment.

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The argument does not end here though, there are some constraints to how sound can be recorded

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on vinyl.

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Interestingly, these constraints largely explain both vinyl enthusiasts preference for the

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media and also why some might argue that digital recordings are a superior format for storing

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audio.

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The major constraint that impacts vinyl is simply its limit in data storage.

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This is simple to understand - A 12 inch record can only hold so much information in the format

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we’ve described.

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Each rotation of the record takes 1.8 seconds.

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The next question is how many times each 12 inch can record rotate.

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Two things affect this, the frequencies found in bass notes require the groove of the record

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to swing out wider, just as the speaker also thumbs out wider when it plays base.

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Waves of higher amplitude that produce louder sound also require wider grooves.

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This means that both low frequency sounds and loud sounds both eat up valuable vinyl

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real estate.

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This in turn means that if you’re record has bass or is loud, like most contemporary

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music, there’s not going to be a whole lot of space on the record for your songs.

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The net impact of this is that there is a volume and time constraint on vinyl record

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that does not apply to digital music, which has huge ramifications for how we listen to

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music, and how music is created and mastered.

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Vinyl’s limitations do not end here.

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If the frequency is low and the amplitude too high (loud), the stylus can become prone

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to bounding off of the wave due to path the stylus has to take up the wave at speed.

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This can cause the record to bounce around and skip if not accounted for.

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Accordingly, bass needs to be center panned in the mix and a specific mix has to applied

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to music recorded to vinyl to stop this from happening.

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High frequency sounds also need to be taking into consideration while cutting a vinyl record.

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The issue is commonly referred to as the “Sibilance Issue”.

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Sibilance is that unpleasant hissing sound associated with s sounds and other high frequencies,

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that anyone who has watched my older videos will be painfully aware of.

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High frequency waves cause two fundamental problems in vinyl.

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High frequency sounds mean the waves are very tight together, the stylus has to surf these

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waves and turn extremely tight corners.

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When the curvature of the groove becomes tighter than the tip radius of the stylus, the stylus

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will begin to plow through the groove and you will end up with distortion.

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On top of this, extremely high frequency waves can lead to the cutting head that cuts the

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record to overheat.

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This is simply a matter of the cutting head having to take a longer path and having to

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do more work to cut these waves.

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The overheating can lead to inaccuracy in the cutting process and in turn to noise and

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distortion on the final record.

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To counteract the negative effects that extreme low end and high end frequencies have on vinyl,

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a group of American engineers developed what became to be known as the Recording Industry

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Association of America (RIAA) curve in the 40s and 50s [7].

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The RIAA is a equalization scheme that is applied to the sound before the master lacquer

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is cut.

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In essence, this curve reduces bass content and boosts treble in the record.

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Without this curve, low frequencies take up so much space that each 12 inch LP would only

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allow for 5 minutes of music.

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In addition, boosting the treble hugely lowers the surface noise that vinyl can produce due

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to the path the stylus takes.

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This is also why a turntable requires a special phono preamp – in addition to amplifying

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the tiny voltage created by the turntable’s cartridge, the preamp applies the inverse

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of the RIAA curve, perfectly restoring the music’s natural balance and minimizing the

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size constraints that are intrinsically linked to the nature of the media.

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So we’ve painted a complicated and grim picture for vinyl as a storage media.

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The actual truth here is that there is no functional difference in audio quality between

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digital and analog formats...and studies show that the human ear and brain is not sufficiently

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equipped to distinguish the difference between sound produced from analog signals when compared

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to a digital counterpart [8].

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At the very least, this is enough to debunk the notion that digital music formats are

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a lesser quality format than analog formats.

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An important question to ask here is why are people, that understand these concepts, still

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drawn to vinyl?

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There’s a number of simple answers to this question:

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Part of it is the nostalgia factor - people have positive personal associations with the

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vinyl format from their youth and these associations invoke an emotional state that induces a sense

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of comfort [9]; and although there are no discernible differences in theoretical audio

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quality, vinyl does have a specific sound that is imparted due to the mastering process.

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Mastering is the process by which the final song is mixed for the final device it will

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be stored on.

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Over the past 36 years, due to the removal of the physical limitations of vinyl media

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and the spread of digitized music, songs have become increasingly louder and increasingly

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more compressed [10].

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In essence, this means that the sound wave becomes compressed, forcing the quieter parts

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of a song to become relatively louder and the louder parts relatively quieter, the net

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effect being a louder, noisier song.

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As a result of this trend a vast majority of commercial music releases have been subject

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to a somewhat arbitrary loudness war that has forced them to increase loudness to keep

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pace.

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It has also resulted in increased use of compression of the music which some would argue has result

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in a loss of detail and nuance in the final sound.

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This development has been criticized by a number of prominent audio engineers [11] and

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is part of the attraction towards vinyl.

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Some people prefer vinyl for this reason, music properly mastered for the medium is

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to a certain degree immune to the effects of the music loudness wars and in some cases,

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this can mean that the more nuanced parts of the song are easier to pick out for a trained

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ear.

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Really though, given that this same information can be recorded on a digital format and replayed

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exactly the same, the answer to this question is that digital and analog formats are functionally

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the same in the quality of sound produced and any preference for one media or the other,

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is really just that, a preference.

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The longevity and iconic status of the vinyl record as a music format cannot be ignored

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though.

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Despite the shortcomings we’ve described, it is an incredibly durable and elegantly

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simple medium.

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This is probably best exemplified in the golden plated record sent on the Voyager 1 In September

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of 1977.

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It’s hard to believe but 12 billion miles away from here this record is floating through

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space.

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It’s cover contains simple instructions for playback based on certain universal constants

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and the record itself contains a high resolution snapshot of 200,000 years of human culture.

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Unless the Voyager 1 suffers a direct impact or encounter heat that may melt the record,

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this record in theory, should out survive even our species.

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Just as the technology for storing music has advanced the technology mixing and mastering

13:01

music has, it has never been easier to get into music production, thanks to programs

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