Technical data pertaining to a specific motorcycle model is central to understanding its capabilities and intended performance. These details encompass a wide range of measurements and values, including engine displacement, power output, chassis dimensions, and weight. Such information enables potential buyers and enthusiasts to evaluate the machine’s suitability for particular riding styles and conditions.
Comprehensive knowledge of a motorcycle’s specifications is vital for making informed purchasing decisions. This data clarifies operational limits and potential performance characteristics, influencing choices based on desired riding experiences, whether focused on urban maneuverability, long-distance touring, or spirited performance. Historically, these figures have been pivotal in comparing different models and gauging technological advancements within the motorcycle industry.
The following sections will delve into specific aspects, covering the engine and performance characteristics, chassis and dimensions, and additional relevant information contributing to a complete technical overview of the motorcycle.
1. Engine Output
The engine output figures are integral to the complete technical profile of the Husqvarna Vitpilen 801. These figures, typically expressed as horsepower (hp) and torque (Nm or lb-ft), directly quantify the engine’s ability to generate power and rotational force. Horsepower indicates the rate at which work can be done, influencing the motorcycle’s top speed and acceleration capabilities at higher engine speeds. Torque, on the other hand, represents the pulling power of the engine, affecting acceleration from lower engine speeds and the motorcycle’s ability to handle inclines or carry loads. For example, higher torque figures at lower RPMs translate to quicker acceleration from a standstill and improved responsiveness in urban riding environments. Thus, understanding these figures is vital to interpreting the intended rider experience.
The relationship between engine output and other specifications within the Vitpilen 801’s technical profile is crucial. Power and torque interact with the motorcycle’s weight, gear ratios, and aerodynamics to determine overall performance. A relatively high power-to-weight ratio, resulting from a powerful engine and a lightweight chassis, allows for enhanced acceleration and agility. Conversely, inadequate power for a heavier motorcycle would lead to sluggish performance. Engine output characteristics directly impact the selection and design of other components, such as the transmission, which must be able to handle the engine’s torque output without failing.
In summary, engine output specifications are a cornerstone of the Husqvarna Vitpilen 801’s identity. Analyzing horsepower and torque curves allows for a comprehensive understanding of its performance potential across different riding scenarios. Discrepancies between published specifications and real-world performance data can arise due to factors such as environmental conditions, fuel quality, and rider skill, highlighting the importance of considering these figures within the context of broader operational parameters.
2. Chassis Dimensions
The dimensional characteristics of the chassis are a key facet within the overall technical specifications. These measurements dictate aspects of handling, stability, and ergonomics. Understanding these figures is crucial to evaluating the motorcycle’s intended purpose and rider experience.
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Wheelbase
The wheelbase, defined as the distance between the front and rear axles, fundamentally affects stability and turning agility. A shorter wheelbase typically yields quicker turning capabilities, making the motorcycle more responsive in tighter corners. Conversely, a longer wheelbase generally enhances stability at higher speeds, reducing the tendency for unwanted oscillations. The wheelbase dimension directly influences the Vitpilen 801’s maneuverability in urban environments and its composure on open roads.
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Rake and Trail
Rake, or steering head angle, refers to the angle of the front fork relative to the vertical axis. Trail is the horizontal distance between the point where the steering axis intersects the ground and the point where the front tire contacts the ground. These two measurements work in tandem to influence steering feel and stability. A steeper rake angle and shorter trail typically result in lighter steering and quicker responses, while a shallower rake angle and longer trail promote stability and reduce steering sensitivity. The combination of rake and trail directly affects the Vitpilen 801’s ability to maintain a straight line and resist unwanted steering inputs.
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Seat Height
The seat height, measured from the ground to the top of the seat, determines rider accessibility and control. A lower seat height makes the motorcycle more manageable for riders with shorter inseams, providing greater confidence when stopped or maneuvering at low speeds. A higher seat height may offer a more commanding riding position and increased legroom for taller riders. The seat height also affects the rider’s center of gravity, influencing the overall balance and handling characteristics of the Vitpilen 801.
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Overall Weight Distribution
Weight distribution, usually expressed as a percentage of weight on the front and rear wheels, is crucial for handling and braking. A more forward weight bias can improve front-end grip during cornering, while a more rearward bias can enhance traction during acceleration. The Vitpilen 801’s weight distribution is carefully designed to optimize both handling and stability, contributing to a balanced and predictable riding experience. Understanding the distribution helps predict how the motorcycle responds to steering and throttle inputs.
In essence, the dimensional specifications are integral to the riding dynamics. These interconnected values provide a framework for understanding the intended handling characteristics. Modifications to any of these specifications, such as altering the suspension or installing aftermarket components, can significantly affect the overall handling balance and rider experience, demonstrating their foundational importance.
Conclusion
The detailed examination of the Husqvarna Vitpilen 801 specs reveals critical insights into its performance capabilities and design philosophy. Engine output figures, encompassing horsepower and torque, offer quantifiable measures of power delivery and responsiveness. Chassis dimensions, including wheelbase, rake, trail, and seat height, dictate handling characteristics, stability, and rider ergonomics. Each specification contributes to the motorcycle’s overall identity and suitability for different riding styles.
A comprehensive understanding of these specifications enables informed decision-making, facilitating accurate comparisons with competing models and a deeper appreciation of the engineering principles underpinning the Vitpilen 801. Continued evaluation of these metrics remains essential in assessing the long-term performance and relevance of this motorcycle within an evolving market landscape.
