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Karsten Solheim (September 15, 1911 – February 16, 2000) was a golf club designer and businessman. He founded Karsten Manufacturing, a golf club maker better known by the name of PING, and the Solheim Cup, the premier international team competition in women's golf.[3]

Key Information

Early life

[edit]

Born in Bergen, Norway, to Herman A. and Ragna Koppen Solheim,[1] the family emigrated to the United States in 1913, and settled in Seattle, Washington, in its Ballard neighborhood. Herman was a shoemaker, and Karsten graduated from Ballard High School in 1931 and enrolled two years later at the University of Washington, with aims at becoming a mechanical engineer.[4] Due to family financial hardship during the Great Depression, he withdrew from UW after his freshman year and then worked in the family shoe shop.[1][5]

Upon the outbreak of World War II, he resumed his engineering studies via University of California extension courses and joined the defense industry, working at Ryan Aeronautical in San Diego. After the war he initially worked as a salesman, but then returned to engineering with positions at Convair and General Electric.

Golf

[edit]

While living in upstate New York in 1954, Solheim took up golf at the age of 42 when his colleagues at G.E. invited him to make up a foursome. He quickly took to the game and found that his main problem was putting, so he designed himself a revolutionary putter. Using sugar cubes and popsicle sticks he came up with a design he would innovate and test.[6] Instead of attaching the shaft at the heel of the blade, he attached it in the center. He applied scientific principles to golf club design, which had previously been based largely on trial and error, transferring much of the weight of the club head to the perimeter.

Solheim took to manufacturing golf clubs in his garage and after a move to Phoenix he touted them to skeptical professionals at tournaments. Acceptance came when Julius Boros won the PGA Tour's Phoenix Open, using Solheim's "Anser" putter in early 1967.[7] Later that year, Solheim resigned from G.E. to establish Karsten Manufacturing, makers of the PING brand of clubs. In 1969, he introduced irons based on the same principle of perimeter weighting, and these were quickly successful. The other golf equipment manufacturers soon followed his innovations, which became industry standards.

With the success of PING, Solheim became a benefactor of golf. He donated millions of dollars to the Karsten Golf Course at Arizona State University and Karsten Creek Golf Course at Oklahoma State University, and sponsored LPGA tournaments in Oregon, Arizona, and Massachusetts. He was the driving force behind the creation of the Solheim Cup, the biennial tournament between teams of women professionals from Europe and the United States, which was modeled on the men's Ryder Cup, and was first played in 1990.

2009 Solheim Cup – Team of USA (2)

Solheim developed Parkinson's disease and in 1995 he handed over his company to his youngest son John.[8] He died in Phoenix in February 2000 at the age of 88.[9]

Solheim's contribution of perimeter weighting and usage of investment casting are recognized as two of the key innovations in the history of golf.[10]

Awards and honors

[edit]
  • For increasing trade with foreign companies through Ping, Solheim received an "E" award from President Reagan[11] in 1988.[12][13]
  • Solheim was a ME Hall of Fame recipient from the University of Washington's mechanical engineering department. After his passing Solheim's wife Louise established an undergraduate scholarship fund and the Solheim Manufacturing Labs within the ME Department in memory of her late husband.[14]

References

[edit]
[edit]
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Karsten Solheim

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Karsten Solheim (September 15, 1911 – February 16, 2000) was a Norwegian-American mechanical engineer and golf club designer renowned for founding Karsten Manufacturing Corporation, the company behind the Ping brand of golf equipment, and for pioneering perimeter-weighted club designs that revolutionized the sport by increasing forgiveness and accessibility for amateur players.[1][2] Born in Bergen, Norway, Solheim immigrated to the United States with his family in 1913 at age two, settling in Seattle, Washington, where his father worked as a shoemaker.[3] He graduated from Ballard High School in 1931 and initially pursued engineering studies at the University of Washington, but the Great Depression forced him to leave; he later completed his education through University of California extension courses.[4] Early in his career, Solheim trained in shoemaking under his father and briefly ran a shoe repair shop before transitioning to engineering roles, including work on the Fireball jet fighter at Ryan Aeronautical and the Atlas missile at Convair, eventually joining General Electric in 1953, where he contributed to projects including early portable televisions, banking computer systems, radar, and guidance systems.[2][4][3] Frustrated with his own putting performance as an avid golfer, Solheim began experimenting with club designs in his Phoenix garage during the late 1950s, leading to the creation of his first heel-toe balanced putter in 1959, which produced a distinctive "ping" sound on impact—hence the brand name.[1][2] He founded Karsten Manufacturing Corporation that year as a one-man operation, introducing the Anser putter model in the early 1960s, which gained prominence when professional Julius Boros used it to win the 1967 Phoenix Open, and was subsequently used by numerous professionals to win major championships.[2][3] Solheim's innovations extended to irons with perimeter weighting and investment casting techniques; Ping equipment, exemplified by the Ping Eye series in the 1980s which became top sellers, has been used to secure victories in over 1,800 professional tournaments worldwide.[1][3] Solheim's legacy includes not only transforming golf equipment manufacturing but also promoting the women's game through the establishment of the Solheim Cup in 1990, a biennial team competition modeled after the Ryder Cup.[1][2] He received the President's "E" Award for export excellence from Ronald Reagan in 1988 and the Ernie Sabayrac Award in 1996 for his contributions to golf.[1][3] Married to Louise, with whom he had three sons and one daughter, Solheim handed leadership to his son John in 1995 before passing away in Phoenix, Arizona, at age 88 from complications of Parkinson's disease.[1][3]

Early Life and Education

Childhood and Immigration

Karsten Solheim was born on September 15, 1911, in Bergen, Norway, to parents of Norwegian descent.[5] In 1913, at the age of two, his family emigrated to the United States seeking greater economic prosperity, settling in Seattle, Washington.[6] Shortly after their arrival, Solheim's mother died at age 21 during the birth of his younger brother, Ray, leaving the young family in hardship.[6] His father, a shoemaker by trade, initially pursued opportunities in Alaska's gold rush, placing Karsten and his brother in foster care with German and Swedish families for three years; the boys faced challenges adapting, including language barriers that delayed Karsten's entry into school until age seven.[6] By age six, Solheim reunited with his father, who had remarried and established a shoe repair business in Seattle's working-class Ballard neighborhood, a hub for Norwegian immigrants.[6] The family integrated into American society through this community, blending Scandinavian traditions with local life, while Solheim assisted in the shop after school and on weekends—standing on a wooden box to reach the workbench due to his small stature until a late growth spurt.[6] These experiences in a modest immigrant household introduced him to manual labor and craftsmanship from an early age.[7] Growing up amid these challenges fostered Solheim's resilience and hands-on aptitude, laying the groundwork for his later interest in mechanical engineering through informal tinkering with tools.[4]

Formal Education and Self-Study

Karsten Solheim graduated from Ballard High School in Seattle in 1931, where he developed an early interest in mechanical engineering.[4] His family's immigrant background from Norway instilled a sense of resilience that supported his determination to pursue technical studies despite economic hardships.[4] That same year, Solheim enrolled at the University of Washington with the goal of becoming a mechanical engineer, but he withdrew after one year in 1933 due to financial pressures exacerbated by the Great Depression.[4][7] To support his household, he worked in the family shoe repair shop during high school and continued operating it in Ballard for several years after leaving university.[4][7] During World War II, Solheim resumed his engineering education through self-directed study, completing an accelerated extension course at the University of California in Fresno focused on mechanical principles to meet the defense industry's demand for engineers.[8][9] He did not earn a formal degree but gained practical knowledge that informed his later career.[7][4]

Professional Engineering Career

Early Engineering Roles

Karsten Solheim began his professional engineering career during World War II at Ryan Aeronautical Corporation in San Diego, California, where he served as a flight research engineer.[7] Hired in 1943 to ensure postwar employment, he contributed to the design and manufacturing of the Ryan Fireball, a pioneering mixed-power fighter aircraft that combined piston and jet propulsion.[9] His work involved precision engineering tasks critical to aircraft performance, honing skills in aeronautical design amid wartime production demands.[10] Solheim remained with Ryan until 1951, gaining foundational experience in high-stakes mechanical problem-solving.[7] In 1951, Solheim transitioned to Convair (Consolidated Vultee Aircraft Corporation) in San Diego, taking on the role of project engineer.[7] There, he worked on the development of the first ground guidance system for the Atlas intercontinental ballistic missile, a key element of early Cold War defense technology.[2] This post-war project required advanced mechanical engineering to integrate radar and control systems for precise missile trajectory, emphasizing accuracy in manufacturing and testing under stringent tolerances.[10] Solheim's two-year tenure at Convair until 1953 built on his Ryan experience, applying self-taught aeronautical knowledge to broader industrial challenges.[11] These early roles in aviation engineering exposed Solheim to rigorous precision manufacturing techniques and iterative problem-solving, such as optimizing components for reliability in extreme conditions, which later informed his innovative approaches in other mechanical fields.[7]

Tenure at General Electric

Karsten Solheim joined General Electric in 1953 as a mechanical design engineer, beginning a 14-year tenure that showcased his expertise in precision engineering and product development.[5] Initially based in Schenectady, New York, at GE's headquarters, Solheim contributed to the design of consumer electrical appliances, most notably the "rabbit ears" antenna for the company's first portable televisions, which improved signal reception and accessibility for household use.[12] His early aviation experience as a flight research engineer provided foundational skills in mechanical design that proved valuable in these roles.[1] Throughout the 1950s and early 1960s, Solheim advanced to more complex projects, including work on radar and guidance systems, industrial components, and manufacturing processes.[7] He joined the mechanical design team for the ERMA (Electronic Recording Machine - Accounting) project in Menlo Park, California, a groundbreaking collaboration with Bank of America to automate check processing through early computing technology.[13] Solheim's efforts focused on precision tooling and efficient assembly methods, enhancing the reliability and scalability of GE's consumer and industrial goods. These contributions streamlined production lines and supported GE's expansion into electronics and computing sectors.[4] In 1961, GE transferred Solheim to its Phoenix, Arizona, facility to support growing operations in computer manufacturing and related technologies.[7] There, he balanced corporate responsibilities with emerging personal pursuits, applying his engineering acumen to refine processes for industrial products amid the company's diversification. Solheim resigned from GE in 1967, concluding his professional engineering phase at the firm after significant advancements in mechanical innovation.[8]

Introduction to Golf and Club Design

Starting to Play Golf

In 1954, at the age of 42, Karsten Solheim took up golf while working as a mechanical engineer for General Electric in upstate New York, where he had recently relocated to Syracuse with his family.[14][15] He was introduced to the sport by colleagues who invited him to complete a foursome after work, sparking an immediate interest despite having no prior experience.[15] Solheim progressed rapidly as an amateur player, honing his skills through regular practice and local competition to reach a respectable 5-handicap.[5] However, he grew increasingly frustrated with his putting accuracy, often requiring extra strokes on the greens due to inconsistent results.[4] Solheim attributed these struggles to the limitations of conventional blade-style putters, which he observed tended to twist and produce mishits even on slight off-center strikes.[9] Drawing on his engineering background to analyze the problem, he decided to conduct personal experiments in his garage, transitioning from dedicated player to innovative tinkerer.[4]

Initial Experiments and the Anser Putter

Frustrated with the inconsistencies in his putting stroke upon taking up golf as a hobby, Karsten Solheim began conducting personal experiments to redesign the putter in his garage during the late 1950s.[9] Solheim's initial trials involved rudimentary materials scavenged from around his home and workplace at General Electric, including sugar cubes to model weight distribution, lead weights inserted into drilled holes to test perimeter balancing, and popsicle sticks for makeshift prototypes.[9] These efforts aimed to address the common issue of face twisting on off-center strikes, which caused mishits and erratic ball paths in traditional blade-style putters.[9] By 1959, Solheim had machined his first heel-toe balanced putter prototype, the 1A model, incorporating innovative perimeter weighting by hollowing out the center of the clubhead and redistributing mass to the heel and toe areas, thereby increasing the moment of inertia for greater forgiveness on imperfect contact.[16][9] Solheim tested the 1A prototype on local courses while working for GE in the northeastern United States and California, iteratively refining designs to enhance stability, roll consistency, and a distinctive high-pitched "ping" sound upon impact that provided auditory feedback to the golfer.[9][17] In 1961, after relocating to Phoenix, Arizona, for a GE transfer, Solheim began informal distribution of early 1A versions to friends, fellow golfers, and professional players at PGA Tour events, often selling them for a nominal fee to gauge real-world performance and gather feedback.[7][9] Solheim continued refining his designs, leading to the Anser putter in 1966, which further perfected the perimeter-weighted cavity-back blade.[18][19] Among the early adopters of the Anser was professional Julius Boros, who credited it with his victory at the 1967 Phoenix Open, marking a pivotal endorsement that highlighted its effectiveness in competitive play.[20]

Founding and Development of Ping

Establishment of Karsten Manufacturing

In 1967, at the age of 56, Karsten Solheim resigned from his position as an engineer at General Electric to dedicate himself full-time to designing and manufacturing golf clubs.[1] This decision was prompted by the growing success of his Anser putter, which had gained traction among professional golfers following Julius Boros's victory with it at the 1967 Phoenix Open.[7] That same year, Solheim incorporated Karsten Manufacturing Corporation in Phoenix, Arizona, naming the company after himself.[7] The business operated initially from a modest 2,200-square-foot facility in northwest Phoenix, transitioning from earlier garage-based production that had begun in 1961 after Solheim's family relocated from California.[7] The brand name "Ping" was derived from the distinctive high-pitched sound produced when the putter struck a ball, a characteristic first noted during testing in Solheim's kitchen in 1959.[7] Production focused on hand-crafting the Anser putter, with limited output sold primarily through local pro shops to build initial market presence.[7] Among the early challenges was securing intellectual property protection for the Anser design, for which Solheim filed a patent application on May 16, 1966; the U.S. patent (D-207,227) was granted on March 21, 1967.[21] Building a viable operation also required assembling a small team, which included significant family involvement—Solheim's sons, John and Allan, assisted by machining castings, drilling alignment holes, and installing grips in the garage and early facility.[7] Additionally, the company faced regulatory hurdles when the United States Golf Association temporarily outlawed several Ping putter models in the late 1960s due to a perceived bend in the grip shaft, though a settlement allowed continued production with modifications.[7]

Key Innovations and Product Expansions

Following the success of his putter designs, Karsten Solheim extended perimeter weighting principles to irons in 1969 with the introduction of the Ping K1 series, the first mass-produced investment-cast irons that redistributed weight to the perimeter for enhanced forgiveness on off-center strikes.[22] This manufacturing process, using investment casting, allowed for precise control over clubhead design, improving consistency and reducing production variability compared to traditional forging methods.[23] The K1 irons marked a pivotal shift toward game-improvement clubs, prioritizing stability and ease of use for average golfers.[24] In 1972, Solheim patented a correlated set of irons (US Patent 3,655,188), featuring cavity-back construction that further amplified perimeter weighting by hollowing the clubface to concentrate mass around the edges, thereby increasing the moment of inertia for greater resistance to twisting.[25] Concurrently, he developed the Ping color-coding system, assigning colored dots to denote specific lie angles and shaft lengths tailored to a golfer's height and wrist-to-floor measurement, revolutionizing custom fitting by making it accessible at the point of purchase.[26] This system, integrated into the Karsten irons, enabled precise adjustments—such as varying lie angles by 0.75 degrees per color code—to promote square clubface contact and optimal ball flight.[27] Building on these foundations, Ping expanded its product line in the 1970s and 1980s to include woods, wedges, and drivers, all emphasizing forgiveness through similar weighting and casting innovations. In 1970, Ping introduced laminated maple woods, larger than standard persimmon models, to provide consistent distance and trajectory for mid-to-high handicappers.[28] The early 1980s saw the launch of the iconic sand wedge, followed by the L-wedge in 1984, both designed with offset hosels and wide soles for improved turf interaction and shot versatility from rough or bunkers.[29] Drivers, evolving from the 1968 Karsten I model, incorporated perimeter weighting in subsequent iterations like the Zing series by the mid-1980s, focusing on straight, reliable drives with reduced slice tendency.[30] By the 1980s, these innovations fueled Ping's growth into international markets, with exports surging through distributor networks in Europe and Asia, culminating in Solheim receiving the U.S. Department of Commerce's "E" Award in 1988 for exemplary contributions to export expansion.[1] This period solidified Ping's reputation for reliable, player-friendly equipment, capturing significant global market share while maintaining a commitment to engineering-driven consistency.[31]

Personal Life

Marriage and Family

Karsten Solheim married Nellie Louise Crozier on June 20, 1936, after meeting her at a church social in Seattle and proposing just ten days later.[9] Their marriage lasted until Karsten's death in 2000, marked by a deep partnership that supported his engineering career and later entrepreneurial pursuits.[14] The couple had four children: sons Karsten Louis Solheim Jr., Allan D. Solheim, and John A. Solheim, along with daughter Sandra Louise Solheim Aiken.[32] The family provided crucial stability during Solheim's transition from his engineering roles at General Electric to founding Ping, with Louise playing a key part in the early operations of Karsten Manufacturing Corporation.[33] Solheim's children later assumed significant roles in the family business, ensuring its continued ownership and leadership. John A. Solheim became chairman, president, and CEO in 1995, guiding the company through expansion while his brothers, including Allan, contributed to its management.[34][14] The third generation, including John's son John K. Solheim, has since taken on executive positions, such as president in 2017, perpetuating the family's involvement.[35]

Philanthropic Contributions

Karsten Solheim's philanthropic efforts focused on advancing education and access to golf, particularly through substantial donations that supported university golf facilities and engineering programs. In 1988, Solheim and his wife Louise contributed $2 million to Arizona State University, enabling the construction of the Karsten Golf Course, which opened in 1989 and served as a key training ground for the university's golf teams.[36][37] Solheim extended his support to Oklahoma State University by providing major funding for the development of Karsten Creek Golf Course, which opened in 1994 and was named in his honor to recognize his ongoing contributions to the program's facilities.[38][23] The course, including Lake Louise named after his wife, became a premier venue for collegiate golf, reflecting Solheim's commitment to enhancing the sport at the institutional level. At his alma mater, the University of Washington, Solheim's legacy in mechanical engineering was honored through endowments established posthumously with support from Louise. These include the Karsten & Louise Solheim Endowed Scholarship, which aids undergraduate students in the mechanical engineering department, and the naming of facilities such as the Solheim Additive Manufacturing Laboratory and the Solheim Manufacturing Science and Technology Lab.[39][40] Through the PING company and Solheim family initiatives, Solheim backed broader efforts to promote golf among youth, including partnerships with organizations like First Tee to expand access to character-building programs and junior golf development.[41] These contributions often involved collaboration with his family, underscoring a shared dedication to educational and recreational opportunities in golf.

Later Years, Death, and Legacy

Health Challenges and Succession

Solheim was diagnosed with Parkinson's disease, a condition that progressively impaired his mobility and physical capabilities over the following decade.[31] Despite these challenges, Solheim's commitment to innovation remained undiminished; he continued to contribute ideas and oversight to Ping's product development, drawing on his engineering expertise to guide the company's direction even as his health limited his daily involvement.[7] By 1995, as the effects of Parkinson's intensified, Solheim handed over the daily operations of Karsten Manufacturing Corporation to his youngest son, John A. Solheim, who assumed the role of president and CEO while Karsten retained the position of chairman.[7][31] This transition ensured a seamless leadership shift within the family, with John applying his deep knowledge of the business—gained from years working alongside his father—to steer Ping through expansion and legal challenges.[31] Solheim stayed actively engaged in design processes into the late 1990s, offering input on club innovations until further health deterioration necessitated reduced participation, at which point he became increasingly wheelchair-bound.[42] Solheim died on February 16, 2000, in Phoenix, Arizona, at the age of 88 from complications of Parkinson's disease.[1] Throughout this period, the Solheim family played a pivotal role in upholding the company's foundational vision of quality and forgiveness in golf equipment, with John's siblings also contributing to operations and maintaining the emphasis on engineering-driven advancements that defined Ping's identity.[31] This family-centric approach extended to their philanthropic efforts, preserving a legacy of community support alongside business continuity.[7]

Awards, Honors, and Enduring Influence

Karsten Solheim received the President's "E" Award for Export Excellence from President Ronald Reagan in 1988, recognizing his company's significant contributions to international trade through the export of Ping golf equipment.[43] This honor highlighted Ping's growing global presence and Solheim's role in expanding American manufacturing abroad.[44] In 1990, Solheim and his wife Louise spearheaded the creation of the Solheim Cup, a biennial team competition pitting professional women golfers from the United States against those from Europe, which debuted that year in Lake Nona, Florida.[45] Named in their honor, the event has since become a cornerstone of women's professional golf, fostering international rivalry and elevating the sport's visibility for female athletes.[46] Solheim's induction into the World Golf Hall of Fame in 2001, as a posthumous Lifetime Achievement honoree, celebrated his pioneering club design innovations, particularly the perimeter-weighted putters and irons that introduced greater forgiveness to the game. His work at Ping established industry benchmarks for equipment forgiveness—redistributing weight to the club's perimeter to reduce mishit penalties—and custom fitting, exemplified by the color-coded lie angle system that matches clubs to individual players' physiques and swings.[47] These advancements influenced subsequent designs across the golf equipment sector, making clubs more accessible and performant for amateur and professional players alike, with Ping maintaining a dominant market position in irons and wedges.[48] Posthumously, Solheim's legacy has been further honored through multiple inductions, including the PGA of America Hall of Fame in 2019, the Sporting Goods Industry Hall of Fame in 2023, and the Southwest Section PGA Hall of Fame. The Karsten Creek Golf Course at Oklahoma State University (opened 1994), following a renovation completed in 2025, continues to serve as an enduring tribute to his contributions, hosting collegiate and community events that promote golf development.

References

  1. Karsten Solheim | | The Guardian
  2. Karsten Solheim - Spartacus Educational
  3. Karsten Solheim inventor of Ping golf clubs dies - Pocono Record
  4. Karsten Solheim '31 - Ballard High School Foundation |
  5. Karsten Solheim, 88, Is Dead; Creator of the Ping Golf Club
  6. Why is the Solheim Cup called the Solheim Cup? - Golf Digest
  7. Karsten Manufacturing Corporation - Company-Histories.com
  8. Excellence in Innovation | TwoTen Magazine
  9. History's Mysteries: The PING Anser | MyGolfSpy
  10. Ping Founder Solheim Dies - CBS News
  11. It all began with a garage sale - Sports Illustrated Vault | SI.com
  12. https://www.gwaa.com/karsten-solheim-among-four-inducted-into-sporting-goods-industry-hall-of-fame/
  13. Snively's corrections to King of the Seven Dwarfs Separating Fact ...
  14. Louise Solheim passes away at 99 | News - LPGA
  15. What Makes a Putter-Maker? - LINKS Magazine
  16. Ping Karsten 1959 Anser X - Putter - Research
  17. Ping Short Stories - EDGA Player Profiles
  18. Ping
  19. How the Ping Anser putter, one of the most iconic clubs in golf ...
  20. History of PING Anser Putters - GolfLink
  21. Half a century of innovation | Golfmagic
  22. Solheim”s road to success began with a ping
  23. Keeping it in the Family - Cybergolf
  24. US3655188A - Correlated golf club set - Google Patents
  25. Our Fitting Process - Iron Fitting - PING
  26. https://mygolfspy.com/news-opinion/historys-mysteries-the-birth-of-pings-color-code-system/
  27. History of Ping Golf Clubs | Discovering The Game Of Golf
  28. PING introduces Glide Forged Pro wedges with score-lowering ...
  29. PING Drivers by Year - GolfLink
  30. The rocky course of succession at Ping - Family Business Magazine
  31. Honoring Louise Solheim - Women's Golf
  32. Louise Solheim turns 98 - Compleat Golfer
  33. Episode 063 - John and John K. Solheim - The WOW Factor Podcast
  34. Ping Names John K. Solheim Company President - Golf Digest
  35. Foundation names 2 to board of trustees - ASU News
  36. The Final Days of Storied ASU Karsten Golf Course
  37. Karsten Creek at 20 - Oklahoma State University Athletics
  38. The Campaign for Engineering Quarterly Report - January 2016
  39. Research laboratories | UW Department of Mechanical Engineering
  40. PING announces support for First Tee's golf
  41. https://www.espn.com/golfonline/news/pga/2000/20000216/00004327.html
  42. Remarks at the Presentation Ceremony for the "E'' and "E Star'' Awards
  43. Arizona Firms Look South | Phoenix New Times
  44. Where the Solheim Cup Got its Name | News | Solheim Cup
  45. Who Created The Solheim Cup? - Golf Monthly
  46. Uncovering the Truth about PING - MyGolfSpy
  47. Ping founder Karsten Solheim named to sporting goods Hall of Fame
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