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Talking Book No. 3: All The Way / Reflection
Label:    The Christian Science Publishing Society – XTV 94606, The Christian Science Publishing Society – XTV 94607
Format:    Vinyl, LP
Country: US
Released: 1949
Genre:    Non-Music
Style:    Audiobook, Religious


Tracklist
A        Article From The Christian Science Journal: All The Way
B        Article From Christian Science Sentinel: Reflection


Published By – The Christian Science Publishing Society
[On the front cover:]
Two Articles From
The Christian Science Journal
and Christian Science Sentinel
3⅓ r.p.m. speed
[On LP labels:]
(Upper-rim)
PUBLISHED BY THE CHRISTIAN SCIENCE PUBLISHING SOCIETY, BOSTON, MASSACHUSETTS.
(Bottom-rim on Side A)
©1940. ALL RIGHTS RESERVED
(Bottom-rim on Side B)
©1949. ALL RIGHTS RESERVED
The Christian Science Journal

Matrix / Runout (Printed on Side A label): XTV 94606
Matrix / Runout (Stamped on Side A): XTV-94606-1C P
Matrix / Runout (Printed on Side B label): XTV 94607
Matrix / Runout (Stamped on Side B): XTV-94607-1C A 3 P



SOUND TESTED - BUYER APPROVED
RECORD PLAYS EX > NM-
JACKET IS VG+ > EX
(VIDEO EXAMPLE, NOT ACTUAL)
https://www.youtube.com/watch?v=fCvSlou2EKE


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FYI
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The First Church of Christ, Scientist, often known as The Christian Science Church or simply Christian Science, is a religious denomination that arose in New England in the nineteenth century. It considers itself to be a Christian denomination and is generally classed as such. It has about 2,000 branches (local churches) in over 70 countries, with The First Church of Christ, Scientist being the headquarters of all the denomination's activities. Christian Science does not have theologians or divinity schools; it does support an undergraduate school, Principia College near St. Louis.

The church was founded by the American woman Mary Baker Eddy in 1879 following a personal healing experience, which she believed to be the result of her Christian faith. The Bible and Eddy's book Science and Health with Key to the Scriptures are together the church's key doctrinal sources (they are called textbooks within the denomination).

The First Church of Christ, Scientist is widely known for its publications, especially the Christian Science Monitor, a daily newspaper published internationally in print and on the Internet. The Church is controversial for its encouragement of prayer for healing when others might choose modern medicine. There have also been periodic tensions with those Christian denominations who reject the idea it is a Christian denomination because of unorthodox tenets it holds.

Christian Science has no connection with Scientology, which was founded about 75 years after Christian Science and which is not based on Christianity. It is also not connected to Religious Science, a recent denomination in line with the New Thought tradition.

In 1866, Mary Baker Eddy (known at the time as Mary Glover) was healed of an injury "that neither medicine nor surgery could reach..." (Ret 24:12) . According to her personal accounts, when she appeared to be near death, she called out for her Bible. She turned it to Matthew 9:2, which tells the story of Jesus healing a man who was sick with palsy, and after pondering the meaning of the passage, found herself suddenly well and able to get up. She believed that the healing came from her belief as a Christian. As she recounted in her autobiography, Retrospection and Introspection:

Even to the homeopathic physician who attended me, and rejoiced in my recovery, I could not then explain the modus of my relief. I could only assure him that the divine Spirit had wrought the miracle—a miracle which later I found to be in perfect scientific accord with divine law.

She referred to this event as her "Great Discovery", the "falling apple" that led to her "discovery how to be well" herself (ibid.) (Later, she gave it the name of "Christian Science".) Not knowing how it had occurred, she spent the next three years studying the Bible, experimenting and praying to discover if the experience was repeatable and if there were knowable laws that governed it. She claimed that she was able to heal others and began to be called out to the bedsides of those whom the medical faculty had not been able to help. A doctor attending a severe case in New Hampshire is said to have witnessed her healing one of his patient and asked if she could explain her system. At the time, she said only that God did it. But he urged her to write about it and soon she began her main work explaining her system of Christian healing, Science and Health with Key to the Scriptures.

Soon others began to ask her to teach her healing method and she claimed that her students were able to approximate her ability to heal. The readers of her book gathered into an organization and gradually developed into a church, with Mary Baker Eddy as its pastor.

In Science and Health with Key to the Scriptures, Eddy argues that given the absolute goodness and perfection of God, sin, disease, and death were not created by Him, and therefore cannot be truly real. She bases this reading on Genesis 1, calling that the true record of creation in contrast to Genesis 2, the false record of creation obscuring the true (which occurred when "a mist went up from the face of the ground"). Rather than being ontologically real, in Christian Science evil and its manifestations are instead terrible lies about God and His creation. This, it contends, is what Jesus meant when he said that "the devil is a liar and the father of it" (John 8:44). The demand for Christians, therefore, is to "unmask" the devil's lies through Christ, revealing the true and eternal perfection of God's creation. Eddy therefore called evil "error" and felt it could be remedied through a better spiritual understanding of humanity's relationship to God. She contended that this understanding was what enabled the biblical Jesus to heal.

This teaching is the foundation of the Christian Science principle that disease – and any other adversity – can be cured through prayerful efforts, made possible only by God's grace, to fully understand this spiritual relationship. It is encapsulated in Science and Health as "The Scientific Statement of Being". It is read aloud in churches and Sunday schools at the end of every Sunday service, along with I John 3:1-3 and a biblical benediction:

There is no life, truth, intelligence, nor substance in matter.
All is infinite Mind and its infinite manifestation, for God is All-in-all.
Spirit is immortal Truth; matter is mortal error.
Spirit is the real and eternal; matter is the unreal and temporal.
Spirit is God, and man is His image and likeness.
Therefore man is not material; he is spiritual.
This belief in the unreality of imperfection, stemming from the allness of God, is the basis of Christian Scientists' characteristic reliance on prayer in place of traditional medical care, often with the aid of Christian Science practitioners.

Christian Science practitioners are listed in the Christian Science Journal, with the permission of the church's Board of Directors, their only form of official recognition by the church and among the Christian Science laity. (Some "unlisted" practitioners maintain active practices as well, but they do so without the prestige that a Journal listing brings. Additionally, medical plans that cover Christian Science treatment generally only cover treatment provided by Journal-listed practitioners.)

Practitioners treat patients, in Christian Science parlance, through prayer. Such treatment often, though not always, is for health-related problems, and a practitioner's patient may request help for personal problems as well, such as relationships, problems of employment or housing and so on. Practitioners may also charge modest fees for their services. Christian Scientists believe that through scientific study of the inspired word of the 'Bible,' especially Jesus' words and works, one can learn to heal. Healing is understood not as an end in itself, but a natural result of drawing closer to God. Healing sin is particularly important. Eddy called this the "emphatic purpose" of Christian Science, writing that it is also sometimes more difficult than healing sickness, because "while mortals love to sin, they do not love to be sick".

Christian Scientists celebrate the sacraments of baptism and eucharist in an entirely non-material way. "Our baptism," wrote Eddy, "is purification from all error...Our Eucharist is spiritual communion with the one God. Our bread, 'which cometh down from heaven,' is Truth. Our cup is the cross. Our wine the inspiration of Love, the draught the Master drank and commended to his followers". The only ritual in the Christian Science church is voluntary kneeling at the Sacrament service twice a year, while repeating the Lord's prayer. Marriage is not a sacrament in Christian Science, but it holds a special place as the context in which a man and a woman can partner to help one another grow into a fuller "demonstration," or lived understanding, of their spiritually complete natures as expressions of Father-Mother God.

Jesus Christ is both "Wayshower" and savior in Christian Science theology. Eddy distinguished between Jesus, the human man, and Christ, the eternal spirit of God that "animated" and inspired Jesus in his unparalleled ministry. Because of his special status due to the virgin birth and his pure, unselfish nature, Jesus voluntarily faced his struggle in Gethsemane, death, resurrection, and ascension to show humanity that no phase of mortal existence was beyond God's redeeming love. Eddy wrote: "Jesus of Nazareth taught and demonstrated man's oneness with the Father, and for this we owe him endless homage". She taught that we are not Christians until we live, to some degree, the Christ-spirit Jesus suffered and rose to give us as his legacy. This was her understanding of his saying that "he that believeth on me, the works that I do shall he do also; and greater works than these shall he do, because I go unto my Father" (John 14:12). No one's ministry, however, can parallel or equal that of Jesus in Christian Science. Eddy even stipulated in her Church Manual that "careless comparison or irreverant reference to Christ Jesus is abnormal in a Christian Scientist and is prohibited".

Christian Scientists are trinitarian, but in an unorthodox way. Eddy calls the Godhead "Father Mother," signifying not an androgynous God but a God "without body, parts or passions," as in the Westminster creed, who nevertheless functions both to govern and comfort. She calls Christ "the spiritual idea of sonship" that Jesus fully lived, or "demonstrated," for the sake of those who would follow him. She calls the Holy Ghost "divine Science or the Holy Comforter," the spiritual principles of Christian Science operating as the Holy Ghost in the world.

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A gramophone record (phonograph record in American English) or vinyl record, commonly known as a "record", is an analogue sound storage medium in the form of a flat polyvinyl chloride (previously shellac) disc with an inscribed, modulated spiral groove. The groove usually starts near the periphery and ends near the center of the disc. Phonograph records are generally described by their diameter in inches (12", 10", 7"), the rotational speed in rpm at which they are played (16 2⁄3, 33 1⁄3, 45, 78), and their time capacity resulting from a combination of those parameters (LP – long playing 33 1⁄3 rpm, SP – 78 rpm single, EP – 12-inch single or extended play, 33 or 45 rpm); their reproductive quality or level of fidelity (high-fidelity, orthophonic, full-range, etc.), and the number of audio channels provided (mono, stereo, quad, etc.).

The phonograph disc record was the primary medium used for music reproduction until late in the 20th century, replacing the phonograph cylinder record–with which it had co-existed from the late 1880s through to the 1920s–by the late 1920s. Records retained the largest market share even when new formats such as compact cassette were mass-marketed. By the late 1980s, digital media, in the form of the compact disc, had gained a larger market share, and the vinyl record left the mainstream in 1991. From the 1990s to the 2010s, records continued to be manufactured and sold on a much smaller scale, and were especially used by disc jockeys (DJ)s, released by artists in some genres, and listened to by a niche market of audiophiles. The phonograph record has made a niche resurgence in the early 21st century – 9.2 million records were sold in the U.S. in 2014, a 260% increase since 2009. Likewise, in the UK sales have increased five-fold from 2009 to 2014.

The phonautograph, patented by Leon Scott in 1857, used a vibrating diaphragm and stylus to graphically record sound waves as tracings on sheets of paper, purely for visual analysis and without any intent of playing them back. In the 2000s, these tracings were first scanned by audio engineers and digitally converted into audible sound. Phonautograms of singing and speech made by Scott in 1860 were played back as sound for the first time in 2008. Along with a tuning fork tone and unintelligible snippets recorded as early as 1857, these are the earliest known recordings of sound.

In 1877, Thomas Edison invented the phonograph. Unlike the phonautograph, it was capable of both recording and reproducing sound. Despite the similarity of name, there is no documentary evidence that Edison's phonograph was based on Scott's phonautograph. Edison first tried recording sound on a wax-impregnated paper tape, with the idea of creating a "telephone repeater" analogous to the telegraph repeater he had been working on. Although the visible results made him confident that sound could be physically recorded and reproduced, his notes do not indicate that he actually reproduced sound before his first experiment in which he used tinfoil as a recording medium several months later. The tinfoil was wrapped around a grooved metal cylinder and a sound-vibrated stylus indented the tinfoil while the cylinder was rotated. The recording could be played back immediately. The Scientific American article that introduced the tinfoil phonograph to the public mentioned Marey, Rosapelly and Barlow as well as Scott as creators of devices for recording but, importantly, not reproducing sound. Edison also invented variations of the phonograph that used tape and disc formats. Numerous applications for the phonograph were envisioned, but although it enjoyed a brief vogue as a startling novelty at public demonstrations, the tinfoil phonograph proved too crude to be put to any practical use. A decade later, Edison developed a greatly improved phonograph that used a hollow wax cylinder instead of a foil sheet. This proved to be both a better-sounding and far more useful and durable device. The wax phonograph cylinder created the recorded sound market at the end of the 1880s and dominated it through the early years of the 20th century.

Lateral-cut disc records were developed in the United States by Emile Berliner, who named his system the "gramophone", distinguishing it from Edison's wax cylinder "phonograph" and Columbia's wax cylinder "graphophone". Berliner's earliest discs, first marketed in 1889, but only in Europe, were 5 inches (13 cm) in diameter, and were played with a small hand-propelled machine. Both the records and the machine were adequate only for use as a toy or curiosity, due to the limited sound quality. In the United States in 1894, under the Berliner Gramophone trademark, Berliner started marketing records with somewhat more substantial entertainment value, along with somewhat more substantial gramophones to play them. Berliner's records had poor sound quality compared to wax cylinders, but his manufacturing associate Eldridge R. Johnson eventually improved the sound quality. Abandoning Berliner's "Gramophone" trademark for legal reasons, in 1901 Johnson's and Berliner's separate companies reorganized to form the Victor Talking Machine Company, whose products would come to dominate the market for many years. Emile Berliner moved his company to Montreal in 1900. The factory which became RCA Victor stills exists. There is a dedicated museum in Montreal for Berliner.

In 1901, 10-inch disc records were introduced, followed in 1903 by 12-inch records. These could play for more than three and four minutes respectively, while contemporary cylinders could only play for about two minutes. In an attempt to head off the disc advantage, Edison introduced the Amberol cylinder in 1909, with a maximum playing time of 4oe minutes (at 160 rpm), which in turn were superseded by Blue Amberol Records, which had a playing surface made of celluloid, a plastic, which was far less fragile. Despite these improvements, during the 1910s discs decisively won this early format war, although Edison continued to produce new Blue Amberol cylinders for an ever-dwindling customer base until late in 1929. By 1919 the basic patents for the manufacture of lateral-cut disc records had expired, opening the field for countless companies to produce them. Analog disc records would dominate the home entertainment market until they were outsold by the digital compact disc in the late 1980s (which was in turn supplanted by digital audio recordings distributed via online music stores and Internet file sharing).

78 rpm disc developments
Early speeds
Early disc recordings were produced in a variety of speeds ranging from 60 to 130 rpm, and a variety of sizes. As early as 1894, Emile Berliner's United States Gramophone Company was selling single-sided 7-inch discs with an advertised standard speed of "about 70 rpm".

By 1925, the speed of the record was becoming standardized at a nominal value of 78 rpm. However, the standard differed between places with alternating current electricity supply at 60 Hertz (cycles per second, Hz) and those at 50 Hz. Where the mains supply was 60 Hz, the actual speed was 78.26 rpm: that of a 60 Hz stroboscope illuminating 92-bar calibration markings. Where it was 50 Hz, it was 77.92 rpm: that of a 50 Hz stroboscope illuminating 77-bar calibration markings.

During the first half of the 1920s, engineers at Western Electric, as well as independent inventors such as Orlando Marsh, developed technology for capturing sound with a microphone, amplifying it with vacuum tubes, then using the amplified signal to drive an electromagnetic recording head. Western Electric's innovations resulted in a greatly expanded and more even frequency response, creating a dramatically fuller, clearer and more natural-sounding recording. Distant or less strong sounds that were impossible to record by the old methods could now be captured. Volume was now limited only by the groove spacing on the record and the limitations of the intended playback device. Victor and Columbia licensed the new electrical system from Western Electric and began issuing electrically recorded discs in 1925. The first classical recording was of Chopin impromptus and Schubert's Litanei by Alfred Cortot for Victor.

For collectable or nostalgia purposes, or for the benefit of higher-quality audio playback provided by the 78 rpm speed with newer vinyl records and their lightweight stylus pickups, a small number of 78 rpm records have been released since the major labels ceased production. One of the first attempts at this was in the 1950s, when inventor Ewing Dunbar Nunn founded the label Audiophile Records, which released, in addition to standard 33 1/3 rpm LPs, 78 rpm-mastered albums that were microgroove and pressed on vinyl (as opposed to traditional 78s, with their shellac composition and wider 3-mil sized grooves). This was done by the label mainly to take advantage of the wider audio frequency response that faster speeds like 78 rpm can provide for vinyl microgroove records, hence the label's name (obviously catering to the audiophiles of the 1950s "hi-fi" era, when stereo gear could provide a much wider range of audio than before). Also in the late 1950s, Bell Records released a few budget-priced 7" microgrooved records at 78 rpm.

In 1968, Reprise planned to release a series of 78 rpm singles from their artists on their label at the time, called the Reprise Speed Series. Only one disc actually saw release, Randy Newman's I Think It's Going to Rain Today, a track from his self-titled debut album (with The Beehive State on the flipside). Reprise did not proceed further with the series due to a lack of sales for the single, and a lack of general interest in the concept. Guitarist & vocalist Leon Redbone released a promotional 78 rpm record in 1978 featuring two songs (Alabama Jubilee and Please Don't Talk About Me When I'm Gone) from his Champagne Charlie album. In 1980 Stiff Records in the United Kingdom issued a 78 by Joe "King" Carrasco containing the songs Buena (Spanish for "good," with the alternate spelling "Bueno" on the label) and Tuff Enuff. Underground comic cartoonist and 78 rpm record collector Robert Crumb released three discs with his Cheap Suit Serenaders in the 1980s.

In the 1990s Rhino Records issued a series of boxed sets of 78 rpm reissues of early rock and roll hits, intended for owners of vintage jukeboxes. This was a disaster because Rhino did not warn customers that their records were made of vinyl, and that the vintage 78 RPM juke boxes were designed with heavy tone arms and steel needles to play the hard shellac records of their time. This failure to warn customers gave the Rhino 78 records a bad reputation, as they were destroyed by old juke boxes and old record players but played very well on newer 78-capable turntables with modern lightweight tone arms and jewel needles.

As a special release for Record Store Day 2011, Capitol re-released The Beach Boys single Good Vibrations in the form of a 10" 78 rpm record (b/w Heroes and Villains). More recently, The Reverend Peyton's Big Damn Band has released their tribute to blues guitarist Charley Patton Peyton on Patton on both 12-inch LP and 10-inch 78 rpm. Both are accompanied with a link to a digital download of the music, acknowledging the probability that purchasers may be unable to play the vinyl recording.

New sizes and materials
Both the microgroove LP 33 1⁄3 rpm record and the 45 rpm single records are made from vinyl plastic that is flexible and unbreakable in normal use, even when they are sent through the mail with care from one place to another. The vinyl records, however, are easier to scratch or gouge, and much more prone to warping compared to most 78 rpm records, which were made of shellac.

In 1931, RCA Victor launched the first commercially available vinyl long-playing record, marketed as program-transcription discs. These revolutionary discs were designed for playback at 33 1⁄3 rpm and pressed on a 30 cm diameter flexible plastic disc, with a duration of about ten minutes playing time per side. RCA Victor's early introduction of a long-play disc was a commercial failure for several reasons including the lack of affordable, reliable consumer playback equipment and consumer wariness during the Great Depression. Because of financial hardships that plagued the recording industry during that period (and RCA's own parched revenues), Victor's long-playing records were discontinued by early 1933.

There was also a small batch of longer-playing records issued in the very early 1930s: Columbia introduced 10-inch longer-playing records (18000-D series), as well as a series of double-grooved or longer-playing 10-inch records on their Harmony, Clarion & Velvet Tone "budget" labels. There were also a couple of longer-playing records issued on ARC (for release on their Banner, Perfect, and Oriole labels) and on the Crown label. All of these were phased out in mid-1932.

Vinyl's lower surface noise level than shellac was not forgotten, nor was its durability. In the late 1930s, radio commercials and pre-recorded radio programs being sent to disc jockeys started being stamped in vinyl, so they would not break in the mail. In the mid-1940s, special DJ copies of records started being made of vinyl also, for the same reason. These were all 78 rpm. During and after World War II, when shellac supplies were extremely limited, some 78 rpm records were pressed in vinyl instead of shellac, particularly the six-minute 12-inch (30 cm) 78 rpm records produced by V-Disc for distribution to United States troops in World War II. In the 1940s, radio transcriptions, which were usually on 16-inch records, but sometimes 12-inch, were always made of vinyl, but cut at 33 1⁄3 rpm. Shorter transcriptions were often cut at 78 rpm.

Beginning in 1939, Dr. Peter Goldmark and his staff at Columbia Records and at CBS Laboratories undertook efforts to address problems of recording and playing back narrow grooves and developing an inexpensive, reliable consumer playback system. It took about eight years of study, except when it was suspended because of World War II. Finally, the 12-inch (30 cm) Long Play (LP) 33 1⁄3 rpm microgroove record album was introduced by the Columbia Record Company at a New York press conference on June 18, 1948.

Unwilling to accept and license Columbia's system, in February 1949 RCA Victor, in cooperation of its parent, the Radio Corporation of America, released the first 45 rpm single, 7 inches in diameter with a large center hole. The 45 rpm player included a changing mechanism that allowed multiple disks to be stacked, much as a conventional changer handled 78s. The short playing time of a single 45 rpm side meant that long works, such as symphonies, had to be released on multiple 45s instead of a single LP, but RCA claimed that the new high-speed changer rendered side breaks so brief as to be inaudible or inconsequential. Early 45 rpm records were made from either vinyl or polystyrene. They had a playing time of eight minutes.

Another size and format was that of radio transcription discs beginning in the 1940s. These records were usually vinyl, 33 rpm, and 16 inches in diameter. No home record player could accommodate such large records, and they were used mainly by radio stations. They were on average 15 minutes per side and contained several songs or radio program material. These records became less common when tape recorders began being used for radio transcriptions around 1949.

On a few early phonograph systems and radio transcription discs, as well as some entire albums, the direction of the groove is reversed, beginning near the center of the disc and leading to the outside. A small number of records (such as The Monty Python Matching Tie and Handkerchief) were manufactured with multiple separate grooves to differentiate the tracks (usually called "NSC-X2").

The commercial rivalry between RCA Victor and Columbia Records led to RCA Victor's introduction of what it had intended to be a competing vinyl format, the 7-inch (175 mm) 45 rpm disc. For a two-year period from 1948 to 1950, record companies and consumers faced uncertainty over which of these formats would ultimately prevail in what was known as the "War of the Speeds". (See also format war.) In 1949 Capitol and Decca adopted the new LP format and RCA gave in and issued its first LP in January 1950. The 45 rpm size was gaining in popularity, too, and Columbia issued its first 45s in February 1951. By 1954, 200 million 45s had been sold.

Eventually the 12-inch (300 mm) 33 1⁄3 rpm LP prevailed as the predominant format for musical albums, and 10-inch LPs were no longer issued. The last Columbia Records reissue of any Frank Sinatra songs on a 10-inch LP record was an album called Hall of Fame, CL 2600, issued on October 26, 1956, containing six songs, one each by Tony Bennett, Rosemary Clooney, Johnnie Ray, Frank Sinatra, Doris Day, and Frankie Laine. The 10-inch LP however had a longer life in the United Kingdom, where important early British rock and roll albums such as Lonnie Donegan's Lonnie Donegan Showcase and Billy Fury's The Sound of Fury were released in that form. The 7-inch (175 mm) 45 rpm disc or "single" established a significant niche for shorter duration discs, typically containing one item on each side. The 45 rpm discs typically emulated the playing time of the former 78 rpm discs, while the 12-inch LP discs eventually provided up to one half-hour of recorded material per side.

The 45 rpm discs also came in a variety known as extended play (EP), which achieved up to 10–15 minutes play at the expense of attenuating (and possibly compressing) the sound to reduce the width required by the groove. EP discs were cheaper to produce, and were used in cases where unit sales were likely to be more limited or to reissue LP albums on the smaller format for those people who had only 45 rpm players. LP albums could be purchased 1 EP at a time, with four items per EP, or in a boxed set with 3 EPs or 12 items. The large center hole on 45s allows for easier handling by jukebox mechanisms. EPs were generally discontinued by the late 1950s in the U.S. as three- and four-speed record players replaced the individual 45 players. One indication of the decline of the 45 rpm EP is that the last Columbia Records reissue of Frank Sinatra songs on 45 rpm EP records, called Frank Sinatra (Columbia B-2641) was issued on December 7, 1959. The EP lasted considerably longer in Europe, and was a popular format during the 1960s for recordings by artists such as Serge Gainsbourg and the Beatles.

In the late 1940s and early 1950s, 45 rpm-only players that lacked speakers and plugged into a jack on the back of a radio were widely available. Eventually, they were replaced by the three–speed record player.

From the mid-1950s through the 1960s, in the U.S. the common home record player or "stereo" (after the introduction of stereo recording) would typically have had these features: a three- or four-speed player (78, 45, 33 1⁄3, and sometimes 16 2⁄3 rpm); with changer, a tall spindle that would hold several records and automatically drop a new record on top of the previous one when it had finished playing, a combination cartridge with both 78 and microgroove styli and a way to flip between the two; and some kind of adapter for playing the 45s with their larger center hole. The adapter could be a small solid circle that fit onto the bottom of the spindle (meaning only one 45 could be played at a time) or a larger adaptor that fit over the entire spindle, permitting a stack of 45s to be played.

RCA 45s were also adapted to the smaller spindle of an LP player with a plastic snap-in insert known as a "spider". These inserts, commissioned by RCA president David Sarnoff and invented by Thomas Hutchison, were prevalent starting in the 1960s, selling in the tens of millions per year during the 45 rpm heyday. In countries outside the U.S., 45s often had the smaller album-sized holes, e.g., Australia and New Zealand, or as in the United Kingdom, especially before the 1970s, the disc had a small hole within a circular central section held only by three or four lands so that it could be easily punched out if desired (typically for use in jukeboxes).
 
 

 

 


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