This specific goggle model combines a frameless design maximizing field of vision with a particular lens tint. The frameless construction allows for an expansive and unobstructed view, beneficial in activities requiring broad peripheral awareness. The lens tint enhances contrast and depth perception, particularly in variable light conditions often found in snow sports. This combination of frame and lens makes the product suitable for activities such as skiing and snowboarding.
Prized for performance, this goggle configuration offers advantages in challenging environments. The enhanced contrast provided by the lens tint aids visibility in flat light or whiteout conditions, improving safety and performance. This technology contributes to a more responsive experience on the slopes, allowing wearers to react more quickly to changing terrain and snow conditions. The frameless design contributes to helmet compatibility, further enhancing its utility for winter sports enthusiasts.
The following sections will delve deeper into the technical specifications of the frame and lens technologies, providing a comprehensive understanding of their design and functionality. Further discussion will explore the ideal applications for this specific goggle configuration and compare it to similar products on the market.
1. Persimmon Lens Tint
Persimmon lens tint forms a crucial component of the Oakley Flight Deck Persimmon goggle system. This specific tint is engineered to optimize visual clarity and performance in specific light conditions commonly encountered in snow sports. By filtering specific wavelengths of light, the persimmon tint enhances contrast, particularly in flat light or whiteout conditions where discerning terrain features can be challenging. This enhanced contrast allows for better depth perception, crucial for navigating uneven slopes and reacting to changes in terrain. For example, a skier wearing goggles with a persimmon tint will likely perceive subtle variations in snow texture and contours more readily than someone wearing a different tint, allowing for more precise control and quicker reactions.
The effectiveness of persimmon tint stems from its ability to filter out blue light, which can contribute to glare and reduced visibility. By reducing blue light transmission, the lens allows warmer colors, such as reds and oranges, to become more prominent. This effect enhances the definition of shadows and highlights on the snow, improving the perception of depth and detail. In practical terms, this translates to a more confident and controlled descent, even in challenging visibility. The choice of persimmon tint demonstrates a deliberate design choice aimed at optimizing performance in the specific environment of snow-covered slopes.
In summary, the persimmon lens tint plays a critical role in the overall performance of the Oakley Flight Deck Persimmon goggles. Its ability to enhance contrast and depth perception in challenging snow conditions contributes significantly to improved visibility, control, and safety for skiers and snowboarders. The specific light transmission properties of this tint make it a well-suited choice for the demands of winter sports, enhancing the wearer’s experience and facilitating optimal performance.
2. Enhanced Contrast
Enhanced contrast represents a critical performance characteristic of the Oakley Flight Deck Persimmon goggle system. This enhancement derives primarily from the persimmon lens tint, which filters specific light wavelengths to optimize visual clarity in snowy environments. The resulting effect amplifies the distinction between light and dark areas, improving depth perception and object definition against the backdrop of snow. Consider a skier navigating a densely wooded slope in overcast conditions. With enhanced contrast, the skier can more easily discern the contours of the terrain, differentiate between snow and shaded areas, and identify potential obstacles like tree branches or moguls. This enhanced visual clarity translates directly to improved safety and control on the slopes.
The importance of enhanced contrast extends beyond mere aesthetics. It directly impacts performance and safety in winter sports. In flat light conditions, where the ambient light is diffuse and shadows are minimal, enhanced contrast becomes crucial for identifying variations in the snow surface. This allows skiers and snowboarders to react more effectively to changes in terrain, such as dips, bumps, or icy patches. The ability to perceive these subtle changes can prevent falls and injuries, contributing to a safer and more enjoyable experience. Furthermore, enhanced contrast aids in judging distances and speeds, further enhancing control and maneuverability.
Enhanced contrast provided by the persimmon lens in the Oakley Flight Deck system serves a critical function in optimizing visual performance in challenging snow conditions. This feature translates directly to improved safety, enhanced control, and ultimately, a more enjoyable experience for skiers and snowboarders. Understanding the impact of enhanced contrast underscores the significance of lens technology in performance eyewear for winter sports.
3. Wide Peripheral Vision
Wide peripheral vision represents a key advantage provided by the Oakley Flight Deck Persimmon goggle system. This expansive field of view stems from the frameless design, minimizing visual obstructions and allowing for greater awareness of the surrounding environment. The benefits of this unobstructed view are readily apparent in activities like skiing and snowboarding. For example, a skier wearing these goggles can more easily spot other skiers or snowboarders approaching from the periphery, obstacles like trees or rocks, and changes in terrain, without needing to turn their head as much. This heightened awareness contributes significantly to improved safety and quicker reaction times on the slopes. The design prioritizes an expansive field of view, recognizing the critical role of peripheral vision in dynamic winter sports environments.
The impact of wide peripheral vision extends beyond mere obstacle avoidance. It contributes to a more immersive and intuitive experience on the mountain. With a broader field of view, skiers and snowboarders can better assess their surroundings, anticipate changes in terrain, and maintain a more natural flow and rhythm. Consider a snowboarder navigating a challenging descent through trees. The wide peripheral vision afforded by the frameless design allows them to anticipate upcoming turns and obstacles more effectively, maintaining speed and control. This translates to a more fluid and confident performance, enhancing the overall experience. This feature caters to the demands of high-speed winter sports where split-second decisions and rapid adjustments are essential.
In summary, wide peripheral vision, facilitated by the frameless design of the Oakley Flight Deck Persimmon goggles, represents a significant performance advantage. This feature directly enhances safety by improving awareness of the surrounding environment and contributes to a more intuitive and fluid experience on the slopes. This design choice reflects a clear understanding of the visual demands inherent in winter sports, prioritizing a wide field of view to optimize performance and enhance the overall experience.
4. Frameless Design
The frameless design of the Oakley Flight Deck Persimmon goggle system constitutes a key feature directly influencing its performance characteristics. This design eliminates the traditional rigid frame around the lens, resulting in an uninterrupted, expansive field of view. The absence of a frame minimizes visual obstructions at the periphery, maximizing peripheral vision. This is particularly advantageous in dynamic environments like skiing or snowboarding, where rapid assessment of the surrounding terrain and awareness of other individuals are crucial for safety and effective maneuverability. For instance, a skier wearing these goggles can more easily perceive approaching skiers or snowboarders from the sides, contributing to collision avoidance and enhanced safety on crowded slopes. The frameless construction thus prioritizes an unobstructed view, aligning with the demands of high-speed winter sports.
Beyond enhanced peripheral vision, the frameless design also contributes to improved helmet compatibility. The flexible and adaptable nature of the frameless system allows for a seamless integration with various helmet shapes and sizes, creating a secure and comfortable fit. This integration minimizes gaps between the goggle and helmet, reducing the potential for drafts and snow intrusion. Furthermore, the frameless design often contributes to a lighter overall weight, enhancing comfort during prolonged wear. This careful consideration of helmet integration underscores the design’s focus on practical functionality in a winter sports context. For example, a backcountry skier wearing a helmet and these goggles can expect a secure, integrated fit, maximizing protection and minimizing distractions during demanding ascents and descents.
In summary, the frameless design of the Oakley Flight Deck Persimmon goggle system plays a crucial role in optimizing both performance and comfort. The expansive field of view afforded by this design enhances peripheral vision and improves situational awareness, directly impacting safety and performance in winter sports. Furthermore, the seamless helmet integration enhances comfort and protection. This design choice reflects a prioritization of functionality and user experience in demanding winter conditions, demonstrating a thoughtful approach to performance eyewear engineering.
5. Helmet Compatibility
Helmet compatibility represents a crucial consideration for goggle selection, particularly in snow sports where head protection is paramount. The integration between goggles and helmets directly influences comfort, safety, and overall performance on the slopes. A properly compatible system eliminates gaps, preventing drafts, snow intrusion, and ensuring a secure fit. Examining the key facets of helmet compatibility within the context of the Oakley Flight Deck Persimmon goggle system reveals its design’s prioritization of seamless integration with various helmet styles.
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Frame Flexibility and Adaptability
The flexible frame construction of the Flight Deck system allows it to conform to the contours of various helmets. This adaptability ensures a snug and secure fit against the helmet’s face opening, minimizing gaps that could compromise performance and comfort. For example, the flexible frame can adapt to the curvature of both cylindrical and spherical helmets, maintaining a secure seal even during dynamic movements.
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Strap Design and Adjustability
The goggle strap features adjustable outriggers designed to accommodate a range of helmet sizes and shapes. These outriggers can be extended or retracted to achieve a secure fit over the helmet, preventing slippage and maintaining proper alignment. The silicone lining on the inside of the strap further enhances grip and prevents movement during activity. This adjustable design allows for compatibility with helmets from various manufacturers.
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Goggle Shape and Size
The overall shape and size of the Flight Deck goggles are specifically designed to integrate seamlessly with most helmets. The frame’s profile is contoured to match the curvature of typical helmet designs, minimizing interference and maximizing the field of view. This ensures that the goggle fits comfortably within the helmet’s eye port without obstructing vision or creating pressure points.
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Impact on Performance and Safety
Proper helmet compatibility directly influences performance and safety on the slopes. A secure and gap-free integration prevents cold air and snow from entering, improving comfort and maintaining clear vision. Furthermore, a stable fit ensures that the goggles remain in place during falls or impacts, maximizing their protective function. This integration is critical for maintaining clear vision and ensuring consistent performance in demanding conditions.
The emphasis on helmet compatibility in the design of the Oakley Flight Deck Persimmon goggles demonstrates a commitment to providing a comprehensive and integrated solution for winter sports enthusiasts. The combination of a flexible frame, adjustable strap, and carefully considered shape ensures a secure and comfortable fit with a variety of helmets, maximizing performance, comfort, and safety on the slopes.
6. Changeable Lenses
The Oakley Flight Deck Persimmon goggle system features interchangeable lenses, a crucial aspect of its adaptability and overall performance in varying light conditions. This capability allows users to optimize their visual experience by selecting the appropriate lens tint for the prevailing weather and environment. This modularity extends the goggle system’s utility, ensuring optimal performance across a broader range of conditions encountered in snow sports.
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Lens Interchangeability Mechanism
The Flight Deck system employs a straightforward and efficient lens changing mechanism. This design allows for quick and tool-less lens swaps, enabling users to adapt to changing light conditions on the fly. The system typically involves a series of strategically placed release points or levers that allow the lens to be detached and reattached securely. This ease of use ensures that lens changes can be performed quickly and efficiently, even in cold weather with gloves.
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Lens Tint Options and Their Applications
Oakley offers a variety of lens tints compatible with the Flight Deck system, each designed for specific light conditions. Persimmon, the tint associated with this particular model, excels in variable and low-light conditions. Other available tints cater to brighter conditions, offering different levels of light transmission and contrast enhancement. For example, a darker tint like Black Iridium might be preferable on sunny days, while a lighter tint like Prizm Rose would be better suited for overcast conditions. This range of options allows users to fine-tune their visual experience based on the specific environment.
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Impact on Performance and Versatility
The ability to change lenses significantly enhances the versatility and performance of the Flight Deck goggle system. By adapting the lens tint to the prevailing light conditions, users can maintain optimal visibility and contrast, enhancing both safety and performance. This adaptability eliminates the need to own multiple goggles for different conditions, streamlining gear choices and reducing overall cost. This feature makes the goggle system suitable for a wider range of activities and light conditions, maximizing its utility for serious snow sports enthusiasts.
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Considerations for Lens Selection and Maintenance
Choosing the correct lens tint requires an understanding of the prevailing light conditions and the intended activity. Bright sunlight necessitates darker tints for glare reduction, while overcast conditions benefit from tints that enhance contrast. Proper lens care and maintenance are also crucial for preserving lens clarity and longevity. Avoiding scratches and using appropriate cleaning solutions ensures optimal performance and extends the lifespan of the lenses. Understanding these considerations ensures the long-term effectiveness and value of the interchangeable lens system.
The interchangeable lens system of the Oakley Flight Deck Persimmon goggles significantly contributes to their adaptability and performance across a range of light conditions. This feature enhances user experience, maximizes versatility, and reinforces the goggle system’s suitability for serious snow sports enthusiasts who demand optimal vision in diverse environments.
7. Durable Construction
Durable construction represents a critical aspect of the Oakley Flight Deck Persimmon goggle system, directly influencing its longevity, performance, and overall value. Given the demanding conditions encountered in winter sports, including impacts, extreme temperatures, and exposure to moisture and UV radiation, robust construction is essential for ensuring consistent performance and extended product lifespan. The following facets explore the key elements contributing to the goggles’ durability.
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Material Selection
The Flight Deck system utilizes high-impact-resistant plastics for the frame and lens components. These materials are engineered to withstand impacts and resist cracking or shattering in cold temperatures. For example, the lens material, often polycarbonate or Plutonite, offers excellent impact protection and optical clarity. The frame material, typically O Matter, is a proprietary blend designed for flexibility, durability, and resistance to stress cracking in extreme cold. This careful material selection ensures the goggles can withstand the rigors of winter sports activities.
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Frame Construction and Design
The frameless design of the Flight Deck contributes to its durability by minimizing potential points of failure. The absence of a rigid frame reduces the risk of breakage during impacts. The flexible frame material also allows the goggles to conform to the wearer’s face and helmet, distributing stress more evenly and further enhancing impact resistance. This design choice prioritizes structural integrity and longevity in demanding environments.
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Lens Coatings and Treatments
The lenses in the Flight Deck Persimmon goggles feature specialized coatings designed to enhance durability and performance. Anti-scratch coatings protect the outer lens surface from abrasion caused by snow, ice, or debris. Anti-fog coatings minimize condensation buildup, preserving clear vision in varying temperatures and humidity levels. Furthermore, UV protective coatings shield the wearer’s eyes from harmful ultraviolet radiation. These coatings contribute significantly to the lens’s longevity and maintain optimal optical performance.
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Strap Durability and Attachment
The goggle strap is constructed from durable materials designed to withstand repeated use and exposure to the elements. Reinforced stitching and secure attachment points ensure the strap remains securely fastened to the frame, preventing detachment during falls or impacts. The strap’s adjustability mechanism is also engineered for durability and reliable performance, ensuring a consistent and secure fit throughout the goggle’s lifespan. This robust strap system contributes to the overall reliability and longevity of the goggle system.
The emphasis on durable construction in the Oakley Flight Deck Persimmon goggle system directly translates to a longer product lifespan, consistent performance in challenging environments, and enhanced value for the user. By utilizing high-quality materials, robust construction techniques, and specialized coatings, these goggles are engineered to withstand the rigors of winter sports and provide reliable performance over extended periods. This focus on durability underscores the manufacturer’s commitment to providing high-quality, performance-driven eyewear for demanding winter conditions.
8. Anti-fog coating
Anti-fog coating plays a crucial role in maintaining clear vision in the Oakley Flight Deck Persimmon goggles, especially during high-intensity activities like skiing and snowboarding. These activities generate body heat and moisture, which, when trapped within the goggle’s enclosed space, can condense on the lens’s inner surface, leading to fogging. Fogging obscures vision, creating a safety hazard and hindering performance. The anti-fog coating mitigates this issue by creating a hydrophilic surface that attracts water molecules and spreads them into a thin, uniform layer, preventing the formation of light-scattering droplets that cause fog. This ensures clear vision even during strenuous activity in cold and variable weather conditions. For example, a skier descending a challenging slope relies on clear vision to navigate obstacles and maintain control; anti-fog coating ensures their vision remains unobstructed, even when body heat and cold air create a high risk of fogging. This technology contributes significantly to user safety and performance in demanding winter environments.
Several factors can influence the effectiveness of anti-fog coatings. Environmental conditions, such as temperature and humidity, play a significant role. Extreme cold can exacerbate fogging potential, while high humidity increases the amount of moisture available for condensation. Proper ventilation within the goggle system is also essential for managing moisture buildup. Vents allow for air circulation, helping to regulate temperature and humidity inside the goggle. Furthermore, the wearer’s individual physiology, such as perspiration rate, can influence fogging potential. Understanding these factors helps users optimize goggle performance and minimize the risk of fogging. For instance, ensuring proper ventilation by avoiding completely sealing the goggle against the face can improve airflow and reduce fogging. Additionally, proper lens care, including avoiding touching the inner lens surface and using appropriate cleaning solutions, can preserve the integrity of the anti-fog coating and extend its effectiveness.
Maintaining clear vision is paramount for safety and performance in winter sports. Anti-fog coating in the Oakley Flight Deck Persimmon goggles represents a crucial technology addressing the inherent challenge of fogging in cold and demanding environments. Understanding the factors influencing fogging and the mechanisms by which anti-fog coatings function empowers users to maximize the effectiveness of this technology and ensure optimal vision on the slopes. This ultimately contributes to a safer and more enjoyable experience in challenging winter conditions.
9. Snow Sports Performance
Snow sports performance relies heavily on clear vision and adaptable equipment. The specific features of these goggles directly address the challenges posed by the demanding visual environment of snow-covered terrain. The persimmon lens tint enhances contrast and depth perception, critical for navigating variable light conditions common in snowy environments. Consider a skier descending a slope in flat light; the enhanced contrast provided by the persimmon tint allows for better differentiation between snow and shadows, aiding in identifying terrain variations and potential hazards. This enhanced visual clarity translates directly to improved control and reaction time, crucial for navigating challenging slopes and maintaining speed. The wide peripheral vision offered by the frameless design further enhances situational awareness, enabling skiers and snowboarders to quickly assess their surroundings and react to other skiers, obstacles, or changes in terrain. This heightened awareness contributes significantly to both safety and performance.
The practical implications of this connection between goggle design and snow sports performance are substantial. Enhanced vision directly translates to improved performance, allowing athletes to push their limits with greater confidence and control. Improved visibility in challenging light conditions enables skiers and snowboarders to maintain higher speeds and navigate more complex terrain. Moreover, the increased situational awareness afforded by the wide field of view enhances safety by enabling quicker reactions to potential hazards. For example, in competitive skiing, fractions of a second can determine the outcome of a race; the enhanced vision provided by optimized goggles can be the deciding factor between winning and losing. Similarly, in backcountry skiing, clear vision is crucial for assessing avalanche risk and navigating challenging terrain; optimized goggles can significantly improve safety margins in these high-stakes environments. Ultimately, the enhanced performance and safety provided by well-designed goggles contribute to a more enjoyable and rewarding experience on the slopes.
The close relationship between snow sports performance and the design features of these goggles is undeniable. The specific features address critical visual challenges inherent in snow sports, leading to tangible improvements in both performance and safety. From enhanced contrast and depth perception to increased situational awareness, these goggles contribute directly to a more controlled, confident, and ultimately, more enjoyable experience on the snow. The selection of appropriate eyewear is not merely an accessory choice but rather a critical decision influencing an individual’s ability to perform optimally and safely in demanding winter environments.
Frequently Asked Questions
This section addresses common inquiries regarding goggles with persimmon lenses, providing concise and informative responses.
Question 1: What light conditions are persimmon lenses best suited for?
Persimmon lenses excel in low-light and variable conditions, such as overcast skies, flat light, or snowy environments. They enhance contrast and improve depth perception in these challenging visual environments.
Question 2: Are persimmon lenses suitable for night skiing?
While persimmon lenses enhance contrast in low light, they are generally not recommended for night skiing. Specific clear or low-light lenses designed for night use are preferable for optimal visibility in dark conditions.
Question 3: How do persimmon lenses compare to other lens tints for snow sports?
Compared to darker tints, persimmon lenses allow more light transmission, making them ideal for low-light situations. Compared to rose or amber tints, persimmon offers a slightly warmer color perception, further enhancing contrast in snowy environments.
Question 4: Can persimmon lenses be used for other activities besides snow sports?
While primarily designed for snow sports, persimmon lenses can be suitable for other activities in similar light conditions, such as trail running or mountain biking in overcast or forested areas. The contrast enhancement can be beneficial in these environments.
Question 5: How does the frameless design impact the durability of the goggles?
While the frameless design maximizes peripheral vision, it does not inherently compromise durability. These goggles employ robust materials and construction techniques to ensure they withstand the rigors of snow sports.
Question 6: How important is proper helmet compatibility with these goggles?
Proper helmet compatibility is crucial for optimal performance, comfort, and safety. A compatible helmet and goggle system creates a secure, gap-free seal, preventing drafts, snow intrusion, and ensuring the goggles remain in place during falls.
Understanding these key aspects of goggle selection and usage ensures optimal performance and a safer, more enjoyable experience on the slopes.
The following section delves into specific care and maintenance recommendations for these goggles, ensuring their longevity and continued optimal performance.
Care and Maintenance Tips
Proper care and maintenance are essential for maximizing the lifespan and performance of specialized sports equipment. These guidelines offer practical advice for ensuring the longevity and optimal functionality of goggles designed for demanding winter conditions.
Tip 1: Lens Cleaning: Avoid using abrasive materials or harsh chemicals that could damage lens coatings. Instead, use a microfiber cloth or designated lens cleaning solution. Gently blot or wipe the lens surface to remove dirt, smudges, and moisture. Example: After each use, gently blot the lens with a clean microfiber cloth to remove any moisture or debris.
Tip 2: Storage: When not in use, store the goggles in a protective case or microfiber pouch to prevent scratches and damage. Avoid storing them in direct sunlight or extreme temperatures. Example: Store goggles in a padded case when traveling to protect them from impacts and scratches.
Tip 3: Drying: Allow goggles to air dry completely before storing them. Avoid using heat sources like hair dryers or radiators, as excessive heat can damage lens coatings and frame materials. Example: After a day of skiing, allow the goggles to air dry at room temperature before placing them in their protective case.
Tip 4: Handling: Handle the goggles with care, avoiding touching the lens surface with bare fingers. Fingerprints can leave oils and smudges that can impair vision and attract dirt. Example: Always hold the goggles by the frame or strap when handling them.
Tip 5: Ventilation: Ensure adequate ventilation within the goggle to minimize fogging. Avoid completely sealing the goggle against the face, allowing for some airflow. Example: Adjust the goggle strap to ensure a secure but not overly tight fit, allowing for some air circulation.
Tip 6: Anti-fog Coating Care: Avoid wiping the inner lens surface excessively, as this can degrade the anti-fog coating over time. If fogging persists, consider using a specialized anti-fog treatment. Example: If fogging occurs, gently blot the inner lens with a clean microfiber cloth, minimizing rubbing or wiping.
Tip 7: Inspection: Regularly inspect the goggles for any signs of damage, such as cracks in the frame or scratches on the lens. Address any issues promptly to prevent further damage and ensure optimal performance. Example: Before each use, inspect the goggles for any signs of wear or damage, paying particular attention to the lens and strap.
Adhering to these care and maintenance practices ensures optimal performance and extends the lifespan of specialized sports goggles. Proper care preserves lens clarity, maintains the integrity of coatings, and safeguards the structural components of the goggle system.
The subsequent conclusion summarizes the key benefits and applications of this specific goggle system.
Conclusion
This exploration of the Oakley Flight Deck Persimmon goggle system highlighted key features contributing to its performance in demanding winter conditions. The persimmon lens tint’s contrast enhancement in low-light scenarios, coupled with the frameless design’s maximization of peripheral vision, contributes significantly to user safety and control. Durable construction, including impact-resistant materials and specialized coatings, ensures longevity and consistent performance. Furthermore, the interchangeable lens system and emphasis on helmet compatibility underscore the system’s adaptability and integration within a broader winter sports equipment ecosystem. Analysis of these features reveals a deliberate design philosophy prioritizing performance, adaptability, and user experience in challenging environments.
Ultimately, optimal performance in winter sports depends on equipment choices aligning with the specific demands of the environment. Selection of appropriate eyewear represents a critical decision impacting safety, control, and overall experience. The information presented here provides a comprehensive understanding of the Oakley Flight Deck Persimmon goggle system, enabling informed decisions regarding equipment selection and contributing to enhanced performance and enjoyment in winter sports activities.
