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How do record players work?
How do record players work?β
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Of course, it's perfectly okay to not know something. All that does is give us a chance to learn, which I imagine is why you subscribed to this newsletter! Okay, enough sappy "I love learning" talk. Let's set the record straight on how record players work:
How do vinyl records work?
Sound is the vibration of particles moving across a medium, like air, in waves. You know that Beach Boys song "Good Vibrations"? It's very meta. They're creating vibrations about vibrations.
β "CPT-sound-physical-manifestation" by Pluke is part of the public domain. |
In the late 1800s, we figured out how to physically record these sound vibrations into an impressionable medium. Enter Thomas Edison's phonograph, the first device that could record and play back sound.
β "Edisonscher Phonograph" is part of the public domain. |
The phonograph worked liked this: A hand crank rotated a cylinder wrapped in tinfoil while a needle pressed against it. While you cranked the handle, you yelled whatever you wanted to record into a mouthpiece. This created vibrations that etched grooves into the foil.
Then you could rewind the cylinder to drag the needle along the newly formed groove to replicate the vibrations. By placing a horn at the end of the needle, you could amplify the recorded sound.
π Watch a demonstration of the phonograph here:
The fundamental mechanics of record players haven't changed all that much from early phonographs. Technically you don't even need a record player to play records. By running a needle in the groove, or even a money bill, you can pick up good vibrations.
But if you insist on using a record player to play your records, here's how it all works:
Step #1: The record spins and drags the needle (stylus) along the groove
β Source: Applied Scienceβ |
The stylus, or needle, is the smallest piece of a record player made from diamond or another hard material. As the record spins, the stylus rides the spiraling grooves, picking up vibrations.
Todayβs records also allow for stereo sound: the left wall of the groove carries the left channel, and the right wall carries the right channel.
Step #2: The vibrations picked up from the stylus move a magnet between two coils.
β Source: The Revolver Clubβ |
The stylus will be housed in the cartridge, which has everything we need to turn the mechanical energy of the sound's vibrations into electrical energy.
The stylus is at one end of a rod called a cantilever. At the other end of the cantilever is a tiny magnet placed between two electrical coils. As the stylus vibrates, it moves the magnet within or between these coils.
Step #3: The magnet's movement creates electrical signals in the left and right channels.
β Source: Mr. Naga Physicsβ |
As the magnet shifts position near the metal coils, the magnetic field passing through those coils changes. This causes the electrons already present in the coils to move slightly back and forth, creating a tiny electrical signal in the coil. Thatβs how a record's physical vibrations get converted into electricity.
Step #4: The electrical signals travel up the tonearm to the preamplifier.
β "SME V" by Spoohoo is licensed under CC BY-SA 3.0. |
The electrical signals from the left and right coils travel up the tonearm of the record player until it reaches the preamplifier. A preamplifier solves for two problems:
- The signal is too small: Since the signal from the record player cartridge is extremely small (only a few millivolts), it needs a boost for further amplification. The preamp multiplies the incoming voltage, creating a larger form of the same waveform.
β - The frequencies need rebalancing: When records are cut, the bass (low) frequencies are intentionally reduced and treble (high) frequencies are boosted. This is to make the grooves easier to cut. But to restore the intended sound quality, a preamp rebalances these frequencies in a process called equalization.
The preamplifier then sends the corrected electrical signal to the main amplifier.
Step #5: The signals reach the main amplifier, separate into left and right channels, and convert back to sound in the speakers.
Once the signals reach the main amplifier, the sound is β you guessed it β amplified. This is also when the left and right signals are sent to their corresponding speakers.
Finally, the electrical signals get converted back into physical movement so we can hear the sounds. A speaker's diaphragm rapidly moves back and forth to vibrate air molecules, which we interpret as music.
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βSources for this week's newsletterβ
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π Wikipedia article of the week
βHTTP refererβ
"In HTTP, "Referer" (a misspelling of "Referrer") is an optional HTTP header field that identifies the address of the web page... from which the resource has been requested. By checking the referrer, the server providing the new web page can see where the request originated.
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The misspelling of referrer was introduced in the original proposal by computer scientist Phillip Hallam-Baker to incorporate the "Referer" header field into the HTTP specification. The misspelling was set in stone by the time (May 1996) of its incorporation....document co-author Roy Fielding remarked in March 1995 that "neither one (referer or referrer) is understood by" the standard Unix spell checker of the period. "Referer" has since become a widely used spelling in the industry when discussing HTTP referrers."
π Catch up on other curious questions
- βHow does superglue work?ββ
- βHow and why do cats purr?ββ
- βHow do court reporters type so fast?ββ
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