A couple of corrections. Edison's invention wasn't called the victrola. That was a registered trademark of the Victor corporation. The machine that was known as the Victrola played disk records not cylinders.
Then the article says... In about 1887, Valdemar Poulsen, a Danish scientist, used the same principles to record sound on a magnetic tape. I don't believe that. First of all, the principle of acoustic recording and magnetic recording are very different. Edison's machine used no electricity, except maybe to make the cylinder go around. The home playback machines used a spring motor for that. I aught to know because I own to of them with about 350 cylinders. Magnetic recording couldn't have been done in 1887 because there weren't any vacuum tubes to amplify the small signal from the playback head for reproduction by a headphone. Recording could have been accomplished using telephone techniques but there would have been no way to play it back. I have heard of experiments and demonstrations of magnetic recording on metal tape done in the 1930s. The Germans perfected magnetic wire recording during WW II and Sears Roebuck marketed a successful wire recorder in 1948. I have one of those also. Magnetic tape came into the radio and recording studio in 1950 and hit the consumer market about 3 years later. It quickly replaced the wire recorder because the tape was more robust than the somewhat fragile wire. Just because somebody posted it on their web site doesn't mean it is correct. Please don't take this personally Ray. I know you do a lot of hard work for the list. Keep posting and the rest of us will jump in when we spot an error. Regards. Max. K 4 O D S. Email: [EMAIL PROTECTED] Transistor site http://www.funwithtransistors.net Vacuum tube site: http://www.funwithtubes.net Music site: http://www.maxsmusicplace.com To subscribe to the fun with tubes group send an email to, [EMAIL PROTECTED] ----- Original Message ----- From: "Boyce, Ray" <[EMAIL PROTECTED]> To: <[email protected]> Sent: Thursday, June 07, 2007 10:08 PM Subject: [BlindHandyMan] LP Records and how they are Made. Hi Everyone How is an lp record made? Background Sound has always fascinated human listeners, but, until late in the 1800s, it eluded capture. This fact seems peculiar to us today because, with compact discs, cassette tapes, highly portable players, automobiles with lush sound systems, hundreds of radio stations on the dial, television stations devoted to music, and a myriad of other broadcast sounds, we are surrounded by sound. Among the solid forms that music and other recordings have taken in their brief history, the long-playing phonograph record may be the most romantic and among the most cherished. Phonograph records are no longer manufactured except by private parties with the equipment and the interest, and most sound systems are not equipped with turntables. Long-playing records, known as LPs, are coveted by collectors, however, and there is a large secondary market in used records among aficionados of particular types of music like jazz or opera or performers like Frank Sinatra or the Beatles. History The long-playing record was a direct descendant of the first record made and played on November 20, 1877, by Thomas Edison. Edison's bounty of inventions came from a thorough understanding of science. Edison knew that sound consists of a vibrating wave of air molecules that enters our ears, strikes the eardrum and sets up vibrations in the tiny bones of the inner ear, and passes along nerve endings to the brain. The brain decodes these vibrations as sounds. The number of vibrations per second is the frequency of the sound, and those vibrating waves have amplitude or size that we interpret as loudness or softness. Any and all sounds have these properties so, to record a bird's song, the symphony of vibrations produced by the instruments in an orchestra, or the voice of the lead singer in a rock band, the same techniques are used. Edison's victrola recorded the sound and played it back. He used a metal cylinder with open ends that was wrapped with a sheet of tinfoil. By speaking into a "sounding disc" that vibrated and was attached to a stylus or needle, the vibrations Edison created by speaking were etched by the stylus onto the tinfoil. The etching looked like small hills and valleys that spiraled around the cylinder. To play back his recording, Edison moved the needle back to the start of the record of the vibrations and revolved the cylinder at the same speed as it had moved during recording. The vibrations came back out of the sounding disc and were amplified by the cup, or primitive microphone, into which Edison had spoken. Following significant improvements to his phonograph, the first records were made of wax cylinders. Jules Levy, a coronet player, is credited as being the first recording artist. He played "Yankee Doodle" on his coronet, and the wax cylinder of his rendition could be played at home on the Edison Parlor Speaking Phonograph (the first home-use phonograph), which sold for $10 in 1878. In about 1887, Valdemar Poulsen, a Danish scientist, used the same principles to record sound on a magnetic tape. At the turn of the century, the infant recording industry made cylinders of various materials with permanent recordings on them, but World War II pushed the magnetic tape into broad acceptance as the medium for recording sound and then transferring it to records. Leading recording companies like RCA Victor found that magnetic tape produced greater fidelity, or faithful reproduction of sound, than other methods. Also, tape can easily be cut and edited to shorten, lengthen, or remove performance errors from recordings. Until just after World War II, records were available in only one playing speed and turned on their turntables at a rate of 78 revolutions per minute ( rpm). In 1948, Peter Carl Goldmark (1906-1977), an American physicist who had been born in Hungary, invented a record that revolved at less than half that speed, at 33.33 times per minute. Improvements in production also allowed the track (the groove for the needle) to be narrowed, and these two developments allowed six times as much music to be recorded on a single record. Large-scale record production was ready for the age of Elvis and rock and roll, and entire symphonies could be reproduced on a single long-playing album instead of a set of 78s. Raw Materials The raw materials for record manufacture were subdivided into those needed to make the master disc, those for actual pressing of the records, and the paper goods needed for labels, sleeves, and jackets. The master disc was made of black lacquer, so it could be etched with grooves to carry the sound. Silver was used to coat the finished disc, and chromium-plated nickel discs were used to press the "vinyl" records. Records were most commonly made of black plastic, although some were produced in other colors. Recording companies developed the designs for their own labels, sleeves, and album jackets; however, manufacture of these was usually subcontracted to paper suppliers and printers. Design Records evolved into three sizes and three forms of sound reproduction. Originally, records were played at a speed of 78 revolutions per minute (rpm) and were called 78s. The 78s were largely replaced by long-playing records, also called LPs and 33s because they revolve when played at 33.33 revolutions per minute. Records with a single song on each side were known as singles and also called 45s because their playing speed was 45 revolutions per minute. In their early years, these records were monaural with sound that usually only came from one needle or speaker and seemed to have only one dimension or source direction. As technology improved, sound was recorded in stereo or quadrophonic sound that was also typically projected from two or four speakers and was more realistic because it captured sound as we hear it with two ears. Standardized record players prevented much variation in physical design of the record. Creativity, instead, came from the recording studio but also from the artists, writers, and researchers who developed the artwork and text on the album jackets. Today's collectors are often as interested in the rare photos and drawings and historical narratives on the record jackets as they are in the music inside. The Manufacturing Process Recording the sound * In the recording studio, microphones are located in several different places depending on the acoustics (sound-bouncing properties) of the room and the music being recorded. There are different types of microphones: a specialized microphone for a vocal soloist and several others for instrumental backup, for example, are used. The microphones hear the sounds and translate them into bursts of electrical current that are fed to the recording head on a magnetic tape recorder. The head is made of layers of metal that formed an electromagnet, and the magnet transmitted the current as a pattern of sound waves to the magnetically sensitive tape. The flow of the current or magnetism varies with the intensity of energy picked up by the microphone as sound. * The magnetic tape consists of a long ribbon of 2 in (5 cm) wide plastic that is coated on one side with iron oxide. As the tape winds its way through the machine and across the face of the electromagnet, the iron oxide responds to the changes in current or magnetic flow so a permanent picture of the sound was formed on the tape by the rearranged particles. The pattern can be seen with a microscope but not with the naked eye. It is, however, permanent and very precise. * During a recording session, sound engineers monitor the work in progress to make sure that every note is captured on tape. The 2 in (5 cm) wide tape is divided into 16 separate tracks, each of which records particular instruments, voices, orchestra sections, or sound from different microphones. During recording, the sound engineer also manipulates the master control board to add special effects or modify the sound he hears from one instrument or section. The master control board also shows the recording levels on each track so these could be made softer or louder. The sound engineers then "do the mix" when the recording is finished to adjust the balance of the various instruments or singers. They may emphasize a particular instrument during one song, for example, and minimize it during another. * Sometimes the sound from a particular instrument or voice is not right for the finished recording, and the artist is called back to the studio to rerecord. This process is called overdubbing and adds another part to a separate track on the tape or to a multi-track master. If the tape is overdubbed, it may also have to be remixed. Sometimes, the collection of artists recording the music can not meet in the recording studio at the same time; in that case, the sound engineers record the rhythm tracks first, then the singers and the strings. This multiple process is called sweetening. The record producer and the sound and mixing engineers work together on the final mix. The tape is then edited to produce the collection of sounds heard on the final recording. The finished tape, called the master tape, is used to make a master disc. Making the master disc List of 5 items * The master disc is made of aluminum coated with soft black lacquer and called a lacquer. The responsibility for making it rests with the mastering engineer. The mastering engineer fits all the sound for one side of the record in the specified width of the playing space. For instance, the sound for a 45-rpm record is allowed to occupy a 1.1875 in (3 cm) wide space for grooves on the record, regardless of whether the song was three to five minutes long. The mastering engineer experiments with the spacing of the grooves. The work of the mastering engineer is critical because the master disc he produces is used as the model for pressing thousands of records. Loud music requires large, fat grooves, while softer music takes narrow grooves. * The mastering engineer controls the space taken by the record grooves most easily by manipulating the volume; however, if more than one song appears on one side of the album, it is also important to keep the volume relatively constant. For the best sound quality, mastering engineers try to use the loudest possible volume. They also use microscopes to inspect the grooves, and they are very adept at recognizing sounds by their grooves. * Mastering engineers use a special grooving machine called a Variable Pitch Cutting Lathe that is equipped with an electronic cutting stylus to etch the grooves in a hard plastic disc. The master disc looks much like a record, but it is larger. A 7 in (17.8 cm) diameter, 45-rpm record is cut onto a 10 in (25.4 cm) diameter blank. A 12 in (30.5 cm) diameter, 33.33 LP is cut onto a 14 in (35.6 cm) diameter blank. The grooves are just like the patterns of iron oxide particles on the magnetic tape in that they imprison the sound vibrations in plastic. As the lacquer is cut, the stylus is heated to help it cut more smoothly. The cutting lathe also has a small vacuum-producing tube mounted next to the stylus. It vacuums up the continuous thread of black lacquer as the grooves are cut. This spiral of waste lacquer is called the chip. * The mastering engineer scribes (marks) the cut disc on the outer edge with identification information including the name of the song or album, the master number that also appears on the master tape, and the type of sound recording, which is monaural, stereo, or quadraphonic sound. At this point in the manufacture, the record producer and the artists may listen to a "reference acetate" or the master disc before it is completed in a final set of steps. After the master disc is cut and approved for production, the disc is plated with a very thin coat of silver. It is then called the metal master and is the basis for all the records manufactured. * At the plating plant, a metal mold is formed from the metal master, and liquid nickel is poured into the mold to produce a nickel stamping record from each side of the metal master. These stampers are also electroplated with chromium that is less than one hundred thousandth of an inch (2.5-5 cm) thick. The chromium coat protects the stampers from scratching. Producing LPs * LPs are produced in factories called pressing plants that usually are located some distance from the recording studio, the birthplace of the master disc, and the plating plant where the stampers are made. A pressing plant is capable of producing up to 185,000 records per day. The plastic or vinyl for the records is produced by melting plastic powder in a heated mixer. The plastic is melted and mixed until it has the consistency of jelly. It is then fed through a roller press that produces long, thin sheets within strict tolerances for the thickness and brittleness of the plastic. When the sheets are cooled, they are cut into squares called biscuits. An automatic press is fitted with the nickel stampers-one for each of the two sides of the record. The biscuits are reheated to soften them slightly, and they are fed into the press. The operator makes sure the biscuit is seated properly and activates the press. The grooves and the sound pattern are pressed into the soft plastic. This same process is used for both long-playing records and singles. * Still square shaped, the stamped biscuits are conveyed to another machine where the labels are pasted on, and the square corners are rounded. The edge of the disc is smoothed, and the center hole is drilled through the labels and the finished disc. * In an alternate version of the same process, the automatic press is fitted with the stampers (the two sides of the album), the round record labels, and a coil of black vinyl plastic. The press is heated to 300°F (149°C), causing the plastic coil to melt and spread between the stampers and into the grooves in a process similar to injection molding. This same machine forms the hole through the center of the record. A flash cutter is used to trim and finish the edge of the LP. * In the finishing department, each record is carefully inspected before packing. The newly pressed record moves to a packaging station where it is inserted in a paper or cellophane envelope or sleeve, slipped into the printed record jacket or album cover, and then shrink-wrapped with plastic. Packing boxes filled with the packaged record albums are shipped to distributors. Quality Control Historically, sound engineers in the studio carefully monitored all aspects of recording to make sure the most desirable sound quality was recorded. The mastering engineer's job was to transfer that quality to a reproducable master disc within the technical constraints of the size of the record and its grooves. After a test pressing was made, the record producer (and sometimes the artists) had the opportunity for an important quality control check in reviewing and approving the test pressing. In the record factory, operators checked the biscuits and the motions of the press and provided ands-on monitoring of the pressing of records. The finishing department also inspected the final product for scratches, bumps, and other irregularities and cleaned each LP before it was packaged. After the records were sealed in their jackets and boxed in bulk, an independent group of testers chose packaged records randomly and removed them from their packaging. These testers checked the packaging itself, played the records, and inspected them for any flaws. Byproducts/Waste Flawed records were melted and pressed again, as were the square corners that were removed from the biscuits to make them into round LPs. The chip of waste lacquer from the making of the master disc was recycled, and any nickel or chromium from the metal processing portions of master disc production was carefully controlled and recycled. The Future The manufacture of long-playing records is a thing of the past. Compact discs stepped to the forefront of recordings in the 1980s because they are not worn by playing, they are more convenient in size, and their sound reproduction quality is better. All sizes of vinyls, however, have many fans among collectors. Some recordings simply have not been remade in compact disc form and are only available on LPs. More often, collectors treasure the collectible character of these records for their sounds, the kinds of music they preserve, and the artwork and information on record jackets. Where to Learn More Books Edmunds, Alice. Who Puts the Grooves in the Record? New York: Random House, 1976. Miller, Fred. Studio Recording for Musicians. New York: Amsco Publications, 1981. Wullfson, Don L. The Kid Who Invented the Popsicle: And Other Surprising Stories About Inventions. New York: Cobblehill Books, 1978. Periodicals Althouse, Paul "Audio: whither LP?" American Record Guide (May-June 1994): 236. Egan, Jack. "Where's the value in vinyl?" U.S. News & World Report (December 13, 1993): 106. McKee, David. "The flip side." Opera News (October 1997): 70. Scull, Jonathan. "All Sales are Vinyl." Atlantic Monthly (December 1997): 106-112. Other "A Science Odyssey: Everyday Objects." http://pbs.org/wgbh/aso/tryit/tech/indext.html/. "Newton's Apple: Which sounds better: an LP or CD?" http://wwwO.pbs.org/ktca/newtons/l1/cdlp.html/. "This Week in Music History." http://cgi.canoe.ca/MusicHistoryJune/june21.html/. ********************************************************************** This message and its attachments may contain legally privileged or confidential information. If you are not the intended recipient, you must not disclose or use the information contained in it. If you have received this e-mail in error, please notify the sender immediately by return e-mail and delete the e-mail. Any content of this message and its attachments which does not relate to the official business of Eraring Energy must be taken not to have been sent or endorsed by Eraring Energy. No warranty is made that the e-mail or attachment(s) are free from computer virus or other defect. ********************************************************************** [Non-text portions of this message have been removed] To listen to the show archives go to link http://acbradio.org/handyman.html or ftp://ftp.acbradio.org/acbradio-archives/handyman/ The Pod Cast address for the Blind Handy Man Show is. http://www.acbradio.org/news/xml/podcast.php?pgm=saturday The Pod Cast address for the Cooking In The Dark Show is. http://www.gcast.com/u/cookingindark/main.xml Visit The Blind Handy Man Files Page To Review Contributions From Various List Members At The Following address: http://www.jaws-users.com/handyman/ Visit the archives page at the following address http://www.mail-archive.com/[email protected]/ For a complete list of email commands pertaining to the Blind Handy Man list just send a blank message to: [EMAIL PROTECTED] Yahoo! 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