Slinky

For the London skyscraper nicknamed "The Slinky", see Baltimore Tower.

Slinky

A Slinky made out of metal
Type	Spring toy
Inventor(s)	Richard T. James Betty James
Company	James Industries
Country	United States
Availability	1945–present

The Slinky is a helical spring toy invented by Richard T. James in the early 1940s. It can perform a number of tricks, including travelling down a flight of steps end-over-end as it stretches and re-forms itself with the aid of gravity and its own momentum; and appearing to levitate for a period of time after it has been dropped. These interesting characteristics have contributed to its success in its home country of the United States, and it has inspired many popular toys with Slinky-like components, in a wide range of countries.

History

The Slinky was invented and developed by naval engineer Richard T. James in 1943 and successfully demonstrated at Gimbels department store in Philadelphia on November 27, 1945. ^[1]

The Slinky was originally priced at $5, but many paid much more due to price increases of spring steel in Pennsylvania. It has, however, remained modestly priced throughout its history as a result of Betty James' concern about the toy's affordability for less affluent customers. In addition to its use as a toy, it has been used as a classroom teaching tool; as a portable and extendable radio antenna in wartime (particularly the Vietnam War). ^[2] It was inducted into the National Toy Hall of Fame at The Strong in Rochester, New York in 2000. In 2003, it was named to the Toy Industry Association's Century of Toys List. ^[3] In its first 60 years, about 300 million Slinkys were sold. ^[4]

Creation

In 1943, Richard T. James, a naval mechanical engineer, observed a spring "stepping" downward after being knocked off a shelf, then coming to rest in a vertical position. ^{[5] [6]} James's wife Betty later recalled, "He came home and said, 'I think if I got the right property of steel and the right tension, I could make it walk.'" ^[7] James experimented with different types of steel wire over the next year, and finally found a spring that would "walk". Betty was skeptical, but changed her mind when the toy was fine-tuned and neighborhood children expressed an excited interest in it. ^[6]

Richard and Betty formed James Industries and began manufacturing slinkys in Clifton Heights, Pennsylvania, selling them for $1 each. ^[6] They were 2+1⁄2 inches (64 mm) tall, and included 98 coils of high-grade blue-black Swedish steel. ^[8] They initially had difficulty selling Slinky to toy stores, but in 1945, they were granted permission to set up an inclined plane in the toy section of Gimbels Department Store in Philadelphia to demonstrate it on the Tuesday after Thanksgiving. ^[1] It was an instant hit; the first 400 units were sold in 90 minutes. ^{[6] [8]} In 1946, Slinky was introduced at the American Toy Fair.

Subsequent developments

In 1960, after his wife filed for divorce, Richard James left the company and he became an evangelical missionary in Bolivia with Wycliffe Bible Translators. ^[9] Betty James moved the company to Hollidaysburg, Pennsylvania in 1964 and the company grew under her direction. ^[6] She attributed the toy's success to its "simplicity". ^[10] The company was sold to Poof Products, Inc. in 1998. ^{[6] [11]} Slinky continued production in Hollidaysburg. ^[6]

Betty James died of congestive heart failure in November 2008, at age 90, after serving as James Industries' president from 1960 to 1998. ^[11]

In July 2012, Poof-Slinky, Inc. was acquired by the private equity firm Propel Equity Partners. ^[12] In 2014, Propel Equity Partners consolidated Poof-Slinky® and several other toy brands into Alex Brands™. ^[13]

In July 2020, the Slinky brand was sold to Just Play. ^[14]

Physical properties

The rules that govern the mechanics of a Slinky are Hooke's law and the effects of gravitation.

Period of oscillation

The oscillation of a vertically suspended Slinky has the periodic duration ^[15]

${\displaystyle T={\sqrt {\frac {32L}{g}}}\,,}$

where ${\textstyle L}$ is the length of the Slinky in the gravitational field of the Earth and ${\textstyle g}$ the acceleration due to gravity ${\textstyle g=9.81\,\mathrm {m/s} ^{2}}$. Please note, that the expression for ${\textstyle T}$ is independent of the spring constant ${\textstyle k}$ and the mass ${\textstyle m}$ of the Slinky. For a spring pendulum one would expect such a dependence. This is because the dependence on ${\textstyle k}$ and ${\textstyle m}$ is hidden in the length ${\textstyle L(k,m)}$:

${\displaystyle L(k,m)={\frac {mg}{2k}}={\frac {W}{2k}}\,,}$

this allows one to write:

${\displaystyle T=4{\sqrt {\frac {m}{k}}}\,.}$

This expression differs from the ordinary spring pendulum

${\displaystyle T_{\mbox{spring pendulum}}=2\pi {\sqrt {\frac {m}{k}}}\,,}$

because for the spring pendulum one assumes a massless spring with a mass ${\textstyle m}$ attached at the bottom.

Phenomena

Flight of stairs

When set in motion on a stepped platform such as a stairway, the Slinky transfers energy along its length in a longitudinal wave. The whole spring descends end over end in a periodical motion as if it were "walking" down one step at a time. ^[16]

Levitation

When the top end of the Slinky is dropped, the information of the tension change must propagate to the bottom end before both sides begin to fall; the top of an extended Slinky will drop while the bottom initially remains in its original position, compressing the spring. ^[17] This creates a suspension time of ~0.3 s for an original Slinky, ^{[18] [19]} but has potential to create a much larger suspension time. A suspended Slinky's center of mass is accelerating downward at 1g (about 32 feet per second per second or 9.8 m/s/s); when released –the lower portion moves up toward the top portion with an equivalent, constant upward acceleration as the tension is relieved. As the spring contracts, every point along its length will accelerate downward with gravity and tension, and experience a decrease in overall downward acceleration related to height along the spring due to the spring force changing with extension –at the bottom of the spring the upward initial acceleration reduces in accordance with Hooke's law as the spring contracts, but the centre toward which it is moving gets closer –meaning the base will have been displaced sufficiently toward the centre of inertial mass for it to appear to have hung still. Should this phenomenology extend to very light strings with heavy suspended masses (which have approximately linear tension distributions), different mathematics would be needed to explain the phenomenon.

Commercial history

Jingle

The jingle for the Slinky television commercial was created in Columbia, South Carolina in 1962 with Johnny McCullough and Homer Fesperman writing the music and Charles Weagly penning the lyrics. It became the longest-running jingle in advertising history. ^[6]

The jingle has itself been parodied and referenced in popular culture. It is seen in the "Log" commercial on The Ren & Stimpy Show and sung by actor Jim Carrey in Ace Ventura: When Nature Calls . It is also referenced in the movie Lords of Dogtown , where it is sung in full by Emile Hirsch, and is sung by Eddie Murphy as part of the final routine in the stand-up comedy film Eddie Murphy Raw . It was also parodied in an ad for the Isuzu Amigo used as a promo for the vehicle's return in late March 1998, nearly two months before the ad was pulled due to criticism from the company that made the Slinky. ^[20]

Slinky Dog

"Slinky Dog" redirects here. For the character in Toy Story, see List of Toy Story characters § Slinky Dog.

Early in the history of James Industries, Helen Herrick Malsed of Washington state sent the company a letter and drawings for developing Slinky pull-toys. The company liked her ideas, and Slinky Dog and Slinky Train were added to the company's product line. Slinky Dog, a small plastic dog whose front and rear ends were joined by a metal Slinky, debuted in 1952. Malsed received royalties of $60,000 to $70,000 annually for 17 years on her patent for the Slinky pull-toy idea, but never visited the plant. ^[21]

In 1995, the Slinky Dog (voiced by Jim Varney and Blake Clark) was redesigned for all of Pixar's Toy Story movies. James Industries had discontinued their Slinky Dog a few years previously. Betty James approved of the new Slinky Dog, telling the press, "The earlier Slinky Dog wasn't nearly as cute as this one." ^[22]

Plastic Slinky

Rainbow colored plastic Slinky toy

Plastic Slinkys are also available. They can be made in different colors. Many of them are made with the colors of the rainbow in rainbow order. They were marketed in the 1970s as a safer alternative to metal Slinkys as they did not present a hazard when inserted into electrical sockets. The plastic spring toy, known as the Plastic Slinky was invented by Donald James Reum Sr. of Avon Plastics in Albany, Minnesota. Reum came up with the idea as he was playing with different techniques to produce a spiral hose for watering plants. However, as it came off the assembly line, according to his children, it looked more like a "Slinky." He worked at it until it came out perfectly and then went to Betty James with his prototype. Reum manufactured the Plastic Slinky for Betty James for several years. Eventually Betty James decided to manufacture the product exclusively through James manufacturing, effectively ending the production of the toy by the small Minnesota company. Reum's patent number, 4120929 was filed on December 28, 1976, and issued by the U.S. Patent Office on October 17, 1978. ^[23]

Awards and honors

In 1999, the United States Postal Service issued a Slinky postage stamp. ^[24] The Slinky was inducted into the National Toy Hall of Fame in 2000 in their Celebrate the Century stamp series. A bill to nominate the Slinky as the state toy of Pennsylvania was introduced by Richard Geist in 2001 but not enacted. ^[25] The same year, Betty James was inducted into the Toy Industry Association's Hall of Fame. ^[11] In 2003, Slinky was named to the Toy Industry Association's "Century of Toys List" of the 20th century's 100 most memorable and creative toys. ^[26]

Other uses

Slinkys and similar springs can be used to create a 'laser gun' like sound effect. ^[27] This is done by holding up a Slinky in the air and striking one end, causing a metallic sound that sharply lowers in pitch. The effect can be amplified by attaching a plastic cup to one end of the Slinky.

The Helixophone is the name composer and artist Sonia Paço-Rocchia gave to a musical instrument made with a Slinky and a resonator. Hélix is a sound installation with up to 20 Helixophones, automated and playing an interactive sound composition. ^{[28] [29] [30] [31] [32]}

Metal Slinkys can be used as an antenna; it resonates between 7 and 8 MHz. During the Vietnam War, it was used as a portable antenna for local HF communication. This setup had many advantages over a long wire shot from M79 grenade launcher: small dimensions, fast and quiet installation, reusability, good takeoff angle for local communication, and adequate performance. It was also used to extend the ranges of handheld radios. ^[33]

In 1985, in conjunction with the Johnson Space Center and the Houston Museum of Natural Science, Space Shuttle Discovery astronauts created a video demonstrating how familiar toys behaved in space. One astronaut described the toy as "sort of droop[ing]". The video was prepared to stimulate interest in school children about the basic principles of physics and the phenomenon of weightlessness. ^[34]

Several online videos have shown that a Slinky can be mounted on the pole of a bird feeder to deter squirrels from climbing up the pole. ^[35]

See also

• Spring (device) § Classification

References

1. Fabry, Merrill (November 27, 2015). "How the Slinky Sprang Into Stores 70 Years Ago". Time. Retrieved January 3, 2018. It was exactly 70 years ago, on the evening of Nov. 27, 1945, that Richard James demonstrated a new product at Gimbels department store in Philadelphia.
2. "The Accidental Invention of the Slinky".
3. "Toy Industry Association Announces Its 'Century of Toys List'" (Press release). Toy Industry Association. January 20, 2003. Archived from the original on April 1, 2003.
4. Fabry, Merrill (November 27, 2015). "How the Slinky Sprang Into Stores 70 Years Ago". Time. Retrieved January 3, 2018.
5. "Inventor of the Week: The Slinky". MIT School of Engineering. Archived from the original on February 22, 2009. Retrieved February 24, 2009.
6. Walsh, Tim (2005). Timeless Toys: Classic Toys and the Playmakers Who Created Them. Andrews McMeel Publishing. pp. 62–65. ISBN   978-0-7407-5571-2.
7. Przybys, John (March 1, 1998). "Novel Ideas". Las Vegas Review-Journal . Archived from the original on October 26, 2003. Retrieved February 21, 2024.
8. Rich, Mark (2005). Warman's 101 Greatest Baby Boomer Toys. Iola, Wisconsin: KP Books. pp. 58–59. ISBN   0-89689-220-4.
9. "'Slinky' brainchild". Delaware County Daily Times . November 25, 1976. Retrieved January 25, 2014.
10. "Betty James, who cofounded Slinky company, dies". KXMB-TV. Associated Press. November 22, 2008. Retrieved February 25, 2009.
11. Hevesi, Dennis (November 25, 2008). "Betty James, Who Named the Slinky Toy, Is Dead at 90". The New York Times . Retrieved February 25, 2009.
12. "Propel Equity Partners Acquires ALEX®". www.businesswire.com. May 28, 2013. Retrieved January 22, 2023.
13. "ALEX TOYS®, POOF-SLINKY® and ZOOB® Come Together Under New Collective Brand Identity". www.businesswire.com. January 29, 2014. Retrieved January 22, 2023.
14. "Just Play Acquires the Slinky and Shrinky Dinks Brands". July 2020.
15. Pretz, Jörg (July 1, 2021). "Oscillations of a suspended slinky". European Journal of Physics. 42 (4): 045008. arXiv: 2005.12203 . Bibcode:2021EJPh...42d5008P. doi:10.1088/1361-6404/abcddf. ISSN   0143-0807. S2CID   218869730.
16. Ikenson, Ben. Patents: Ingenious Inventions: How They Work and How They Came to Be.
17. Slinky drop physics - video of extended Slinky being dropped. Discover magazine. September 26, 2011.
18. Cross, Rod C.; Wheatland, Mike S. (August 22, 2012). "Modeling a falling slinky". American Journal of Physics. 80 (12): 1051. arXiv: 1208.4629 . Bibcode:2012AmJPh..80.1051C. doi:10.1119/1.4750489. S2CID   33704140.
19. Cross, Rod C.; Wheatland, Mike S. (2012). "Modeling a falling slinky". American Journal of Physics. 80 (12). American Association of Physics Teachers: 1051. arXiv: 1208.4629 . Bibcode:2012AmJPh..80.1051C. doi:10.1119/1.4750489. S2CID   33704140.
20. Halliday, Jean (May 18, 1998). "Isuzu Pulls Commercial That Parodies Slinky Ads: Intro TV Spot for Amigo SUV Drew Criticism; Marketer Says Flight Was Over". Ad Age . Crain Communications. Archived from the original on February 26, 2023. Retrieved February 10, 2024.
21. McDowell, Edwin (November 28, 1998). "Helen H. Malsed, 88, Creator of Slinky Toys". The New York Times . Archived from the original on August 24, 2016. Retrieved February 26, 2009.
22. Witchel, Alex (February 21, 1996). "Talking Toys with Betty James; Persevering for Family and Slinky". The New York Times . Retrieved February 26, 2009.
23. USpatent 4120929,Reum, Donald James,"Method for producing a spirally wound plastic article",issued October 17, 1978 
24. Sourcebook for Receptive and Expressive Language. Detroit, Michigan: Wayne State University Press. 2006. p. 106. ISBN   0-8143-3314-1 . Retrieved February 25, 2009.
25. "Regular Session 2001–2002, House Bill 1893". Pennsylvania General Assembly . Retrieved March 31, 2011.
26. "Toy Industry Association Announces Its Century of Toys List" (Press release). Business Wire for Toy Industry Association. January 21, 2003. Retrieved February 19, 2009.
27. "the experiMENTALS: experiments - laser canon sound effect - The Lab - Australian Broadcasting Corporation's Gateway to Science". www.abc.net.au. Retrieved February 19, 2018.
28. "Sonia Paço-Rocchia - Helix - Exposition à Victoriaville – Le Carré 150". www.lecarre150.com (in Canadian French). Retrieved March 10, 2021.
29. Sara (December 16, 2015). "2017". fimav.qc.ca (in Canadian French). Retrieved March 10, 2021.
30. Poisson, Sophie (January 9, 2018). "Rebondir". Journal Métro (in French). Retrieved March 10, 2021.
31. "ICI Radio-Canada Première | Balados, livres audio". Radio-Canada (in French). Retrieved March 10, 2021.
32. Radio-Canada: Ici Alberta. "Hélix au Centre d'arts visuels de l'Alberta". Facebook (in French). Retrieved March 10, 2021.
33. Last-Minute Survival Secrets: 128 Ingenious Tips to Endure the Coming Apocalypse and Other Minor Inconveniences . Chicago Review Press, Incorporated. 2015. p.  24. ISBN   9781613749852.
34. "Toy Time in Space". The New York Times . April 16, 1985. Archived from the original on November 10, 2012. Retrieved February 26, 2009.
35. "Woman uses Slinky to keep squirrels from bird feeder". December 21, 2016.

External links

• Poof-Slinky, Inc
• University of Sydney - home institution of Slinky physics researchers