Newton Golf Company Inc. (NASDAQ: NWTG) has expanded availability of its Fast Motion shafts to Club Champion locations across the United States, making the performance-driven golf shaft technology accessible to golfers through one of the nation's leading club fitting retailers. The expansion represents a significant milestone for the technology-forward golf company, bringing its physics-based engineering innovations to a broader audience of golf enthusiasts.
The Fast Motion shaft, launched on April 29, 2025, has already demonstrated strong market performance with nearly 4,000 units and approximately $1.4 million in orders to date. This demand from both professional and amateur golfers underscores the shaft's impact on game performance. The shaft incorporates high-modulus Toray carbon fibers, making it approximately 10 grams lighter than Newton's Motion series while maintaining crucial stability and dispersion characteristics.
Club Champion's nationwide network of more than 130 locations provides golfers with professional fitting services that complement Newton Golf's proprietary DOT system, which enables precise swing fitting. The partnership allows golfers to experience the Fast Motion shaft's benefits through expert fitting sessions, ensuring optimal performance customization. The expansion builds on momentum from Newton's flagship Motion series and represents one of golf's fastest-growing shaft technologies becoming more widely available to consumers.
Newton Golf, formerly known as Sacks Parente, has rebranded to reflect its commitment to innovation inspired by Sir Isaac Newton's principles. The company harnesses physics to revolutionize golf equipment design, creating precision-engineered clubs that deliver stability, control, and performance. The latest news and updates relating to NWTG are available in the company's newsroom at https://ibn.fm/NWTG. The Fast Motion shaft's incorporation into Club Champion's fitting offerings marks an important development for golfers seeking scientifically advanced equipment that maximizes consistency and accuracy through applied physics principles.
