The Ultimate Guide to MUDRY CAP-20 Specs: Performance and Features

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The Ultimate Guide to MUDRY CAP-20 Specs: Performance and Features


MUDRY CAP-20 Specs refer to the technical specifications of the MUDRY CAP-20, a light aircraft manufactured by Avions Mudry in France.

The MUDRY CAP-20 is a single-engine, two-seat aerobatic aircraft designed for both sport flying and pilot training. It is known for its maneuverability and performance, making it a popular choice for aerobatic competitions.

The specs of the MUDRY CAP-20 include:

  • Wingspan: 20 feet (6.1 meters)
  • Length: 22 feet (6.7 meters)
  • Height: 8 feet (2.4 meters)
  • Empty weight: 1,200 pounds (544 kilograms)
  • Maximum takeoff weight: 1,764 pounds (800 kilograms)
  • Engine: Lycoming O-360-A4M, 180 horsepower
  • Maximum speed: 150 knots (173 miles per hour)
  • Cruise speed: 135 knots (155 miles per hour)
  • Range: 500 nautical miles (575 miles)

The MUDRY CAP-20 is a highly capable aircraft that has been used for a variety of purposes, including aerobatic competitions, pilot training, and recreational flying.

MUDRY CAP-20 Specs

The MUDRY CAP-20 is a light aircraft manufactured by Avions Mudry in France. It is known for its maneuverability and performance, making it a popular choice for aerobatic competitions. The specs of the MUDRY CAP-20 are as follows:

  • Wingspan: 20 feet (6.1 meters)
  • Length: 22 feet (6.7 meters)
  • Height: 8 feet (2.4 meters)
  • Empty weight: 1,200 pounds (544 kilograms)
  • Maximum takeoff weight: 1,764 pounds (800 kilograms)
  • Engine: Lycoming O-360-A4M, 180 horsepower
  • Maximum speed: 150 knots (173 miles per hour)
  • Cruise speed: 135 knots (155 miles per hour)
  • Range: 500 nautical miles (575 miles)

These specs make the MUDRY CAP-20 a highly capable aircraft that has been used for a variety of purposes, including aerobatic competitions, pilot training, and recreational flying. The aircraft’s light weight and powerful engine give it excellent performance, while its small size and low cost make it a practical choice for many pilots.

Wingspan

The wingspan of the MUDRY CAP-20 is a crucial aspect of its overall specifications, influencing various flight characteristics and performance capabilities.

  • Aerodynamic Efficiency: A wider wingspan increases the surface area of the wings, generating more lift and reducing drag. This results in improved fuel efficiency and overall aircraft performance.
  • Maneuverability: A shorter wingspan enhances the aircraft’s maneuverability, making it more responsive and agile during aerobatic maneuvers or tight turns.
  • Stability: A larger wingspan contributes to greater stability, reducing the aircraft’s susceptibility to disturbances and wind gusts, thereby enhancing overall flight control.
  • Stall Speed: A wider wingspan typically leads to a lower stall speed, improving the aircraft’s handling at low speeds and during takeoff and landing.

In summary, the 20-foot wingspan of the MUDRY CAP-20 is a key design feature that optimizes the aircraft’s aerodynamic efficiency, maneuverability, stability, and stall speed. These factors collectively contribute to the aircraft’s exceptional performance and handling characteristics, making it well-suited for aerobatic competitions, pilot training, and recreational flying.

Length

The length of the MUDRY CAP-20, measuring 22 feet (6.7 meters), is a critical aspect of its overall specifications, directly influencing various flight characteristics and performance capabilities.

Aerodynamic Efficiency: The length of an aircraft impacts its overall aerodynamic efficiency. A longer fuselage reduces drag by streamlining the airflow around the aircraft, resulting in improved fuel consumption and increased range.

Weight Distribution: The length of the aircraft also affects its weight distribution. A longer fuselage allows for a more balanced weight distribution, which enhances stability and control during flight.

Cockpit Space: The length of the fuselage directly influences the amount of cockpit space available. A longer fuselage provides more room for occupants, enhancing comfort and ergonomics, particularly during extended flights.

Maintenance and Handling: The length of the aircraft also affects maintenance and handling. A longer fuselage requires more space for maintenance procedures and ground handling, which should be considered during operation and storage.

In summary, the length of 22 feet (6.7 meters) for the MUDRY CAP-20 is a key design parameter that contributes to its aerodynamic efficiency, weight distribution, cockpit space, and maintenance requirements. Understanding this connection is essential for pilots and operators to optimize the aircraft’s performance and ensure safe and efficient operation.

Height

The height of the MUDRY CAP-20, measuring 8 feet (2.4 meters), is a crucial aspect of its overall specifications, directly influencing various flight characteristics and performance capabilities.

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  • Aerodynamic Profile: The height of an aircraft, also known as its vertical dimension, affects its aerodynamic profile. A lower height reduces the aircraft’s frontal area, minimizing drag and improving overall aerodynamic efficiency.
  • Cockpit Visibility: The height of the fuselage directly influences the pilot’s visibility from the cockpit. A higher fuselage provides better visibility, enhancing situational awareness and safety during takeoff, landing, and other critical flight maneuvers.
  • Ground Handling: The height of the aircraft also impacts ground handling operations. A lower height facilitates easier loading and unloading of cargo and passengers, as well as maintenance procedures.
  • Hangar Compatibility: The height of the MUDRY CAP-20 is a key consideration when selecting appropriate hangars for storage and maintenance. A lower height allows the aircraft to fit into smaller hangars, reducing storage costs and increasing flexibility.

In summary, the height of 8 feet (2.4 meters) for the MUDRY CAP-20 is a critical design parameter that contributes to its aerodynamic efficiency, cockpit visibility, ground handling, and hangar compatibility. Understanding this connection is essential for pilots and operators to optimize the aircraft’s performance, ensure safe operation, and plan for appropriate storage and maintenance.

Empty weight

In the context of MUDRY CAP-20 Specs, the empty weight, referring to the weight of the aircraft without any payload, passengers, or fuel, is a significant factor influencing various aspects of its performance and operation.

  • Payload Capacity: The empty weight directly affects the aircraft’s payload capacity, which is the maximum weight of passengers, cargo, and fuel that it can carry. A lower empty weight allows for a greater payload capacity, increasing the aircraft’s versatility and range.
  • Fuel Efficiency: A lower empty weight contributes to improved fuel efficiency. A lighter aircraft requires less thrust to achieve the same performance, resulting in reduced fuel consumption and increased range.
  • Takeoff and Landing Performance: The empty weight impacts the aircraft’s takeoff and landing performance. A lighter aircraft has a shorter takeoff distance and lower landing speed, improving safety and reducing runway requirements.
  • Structural Design: The empty weight influences the structural design of the aircraft. A lighter empty weight allows for a lighter overall structure, reducing material costs and potentially increasing the aircraft’s performance.

In summary, the empty weight of 1,200 pounds (544 kilograms) for the MUDRY CAP-20 is a crucial specification that affects the aircraft’s payload capacity, fuel efficiency, takeoff and landing performance, and structural design. Understanding this connection is essential for pilots, operators, and engineers to optimize the aircraft’s performance, ensure safe operation, and plan for efficient maintenance and modifications.

Maximum takeoff weight

In the context of MUDRY CAP-20 Specs, the maximum takeoff weight, referring to the maximum allowable weight of the aircraft at takeoff, is a crucial specification that directly influences various aspects of its performance and operation.

  • Payload Capacity: The maximum takeoff weight determines the maximum payload capacity, which is the amount of weight that can be carried in terms of passengers, cargo, and fuel. A higher maximum takeoff weight allows for a greater payload capacity, increasing the aircraft’s versatility and utility.
  • Takeoff Performance: The maximum takeoff weight affects the aircraft’s takeoff performance, particularly the takeoff distance and climb rate. A higher maximum takeoff weight requires a longer takeoff distance and a higher climb rate to achieve the desired altitude.
  • Structural Design: The maximum takeoff weight influences the structural design of the aircraft. A higher maximum takeoff weight necessitates a stronger and more robust airframe to withstand the increased weight and associated stresses during takeoff.
  • Operational Considerations: The maximum takeoff weight impacts operational considerations such as runway requirements, fuel planning, and pilot training. Aircraft operating at or near their maximum takeoff weight may require longer runways for takeoff and landing, as well as more precise fuel management to ensure optimal performance.

In summary, the maximum takeoff weight of 1,764 pounds (800 kilograms) for the MUDRY CAP-20 is a key specification that affects the aircraft’s payload capacity, takeoff performance, structural design, and operational considerations. Understanding this connection is essential for pilots, operators, and engineers to optimize the aircraft’s performance, ensure safe operation, and plan for efficient maintenance and modifications.

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Engine

Within the realm of MUDRY CAP-20 Specs, the aircraft’s engine, a Lycoming O-360-A4M delivering 180 horsepower, stands as a pivotal component that profoundly influences the aircraft’s performance, capabilities, and overall flight characteristics.

  • Performance and Power: The Lycoming O-360-A4M engine provides the necessary power and thrust to propel the MUDRY CAP-20, enabling it to achieve its desired speed and altitude. The 180 horsepower output allows for responsive acceleration, efficient cruising, and reliable climb rates.
  • Fuel Efficiency and Range: The engine’s fuel efficiency directly affects the aircraft’s range and endurance. The Lycoming O-360-A4M engine is known for its optimized fuel consumption, allowing the MUDRY CAP-20 to travel longer distances without the need for frequent refueling.
  • Reliability and Maintenance: The Lycoming O-360-A4M engine has a reputation for reliability and durability, ensuring minimal downtime and maintenance costs. Its robust design and proven track record contribute to the aircraft’s overall safety and operational efficiency.
  • Weight and Balance: The engine’s weight and placement within the aircraft affect its overall weight and balance. The Lycoming O-360-A4M engine is strategically positioned to optimize the MUDRY CAP-20’s center of gravity, enhancing stability and handling qualities.

In summary, the Lycoming O-360-A4M engine, with its 180 horsepower output, forms an integral part of the MUDRY CAP-20 Specs. Its performance, fuel efficiency, reliability, and impact on weight and balance make it a crucial factor in determining the aircraft’s overall capabilities and suitability for various applications.

Maximum speed

The maximum speed of 150 knots (173 miles per hour) is a crucial aspect of the MUDRY CAP-20’s specifications, directly influencing its performance and capabilities.

  • Aerodynamic Design: The aircraft’s sleek and streamlined design, combined with its powerful engine, enables it to achieve high speeds. This aerodynamic efficiency allows for reduced drag and increased thrust, resulting in enhanced overall performance.
  • Maneuverability and Agility: The MUDRY CAP-20’s high speed provides excellent maneuverability and agility, making it well-suited for aerobatic maneuvers and precise flight control. Pilots can execute sharp turns, dives, and climbs with greater responsiveness and accuracy.
  • Mission Versatility: The aircraft’s maximum speed allows it to perform a wide range of missions, including both sport flying and pilot training. Its ability to reach higher speeds enables pilots to cover greater distances in less time, enhancing the aircraft’s versatility and practicality.
  • Operational Efficiency: In certain scenarios, such as long-distance flights or time-sensitive missions, the MUDRY CAP-20’s high speed can result in improved operational efficiency. It can reach its destination or complete tasks more quickly, optimizing time and resources.

In summary, the maximum speed of 150 knots (173 miles per hour) is a significant aspect of the MUDRY CAP-20’s specifications, contributing to its aerodynamic efficiency, maneuverability, mission versatility, and operational efficiency. Understanding this connection allows pilots, enthusiasts, and aviation professionals to appreciate the aircraft’s capabilities and performance in various flight scenarios.

FAQs on MUDRY CAP-20 Specs

This section addresses frequently asked questions (FAQs) related to the specifications of the MUDRY CAP-20 aircraft, providing concise and informative answers to common queries and misconceptions.

Question 1: What is the wingspan of the MUDRY CAP-20?

Answer: The MUDRY CAP-20 has a wingspan of 20 feet (6.1 meters). This wingspan contributes to the aircraft’s aerodynamic efficiency, maneuverability, stability, and stall speed.

Question 2: What is the empty weight of the MUDRY CAP-20?

Answer: The empty weight of the MUDRY CAP-20 is 1,200 pounds (544 kilograms). A lower empty weight allows for a greater payload capacity, improved fuel efficiency, better takeoff and landing performance, and a lighter overall structure.

Question 3: What engine powers the MUDRY CAP-20?

Answer: The MUDRY CAP-20 is powered by a Lycoming O-360-A4M engine, delivering 180 horsepower. This engine provides reliable power and thrust, contributing to the aircraft’s performance, fuel efficiency, and overall flight characteristics.

Question 4: What is the maximum speed of the MUDRY CAP-20?

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Answer: The maximum speed of the MUDRY CAP-20 is 150 knots (173 miles per hour). This high speed enables the aircraft to perform a wide range of missions, enhances its maneuverability, and improves operational efficiency in certain scenarios.

Question 5: What is the maximum takeoff weight of the MUDRY CAP-20?

Answer: The maximum takeoff weight of the MUDRY CAP-20 is 1,764 pounds (800 kilograms). This maximum weight determines the aircraft’s payload capacity, takeoff performance, structural design, and operational considerations.

Question 6: What is the height of the MUDRY CAP-20?

Answer: The height of the MUDRY CAP-20 is 8 feet (2.4 meters). This height influences the aircraft’s aerodynamic profile, cockpit visibility, ground handling, and hangar compatibility.

Summary: Understanding the specifications of the MUDRY CAP-20 is crucial for pilots, operators, and aviation enthusiasts to optimize its performance, ensure safe operation, and plan for efficient maintenance and modifications.

Transition: For further inquiries or in-depth information, refer to the comprehensive article on MUDRY CAP-20 Specs, which provides additional details and insights.

Tips for Optimizing MUDRY CAP-20 Performance

Understanding the specifications of the MUDRY CAP-20 aircraft is crucial for maximizing its performance and efficiency in various flight scenarios. Here are several tips to consider:

Tip 1: Payload Management

Optimizing the aircraft’s weight and balance is essential. Distribute the payload, including passengers, cargo, and fuel, evenly to maintain the aircraft’s center of gravity within the allowable range. This ensures stability, handling precision, and efficient flight characteristics.

Tip 2: Fuel Efficiency

The Lycoming O-360-A4M engine provides excellent fuel efficiency. To maximize range and endurance, maintain optimal airspeed and altitude, avoid unnecessary engine idling, and utilize fuel-saving techniques such as leaning the mixture and using fuel flow management systems.

Tip 3: Aerodynamic Optimization

Keep the aircraft’s exterior clean and free of dirt or debris to minimize drag. Ensure that all fairings, cowlings, and access panels are properly fitted and sealed to maintain smooth airflow over the aircraft’s surfaces.

Tip 4: Regular Maintenance

Regular maintenance and inspections are crucial for maintaining the aircraft’s performance and safety. Adhere to the manufacturer’s recommended maintenance schedule, including inspections, fluid changes, and component replacements, to ensure optimal engine operation, structural integrity, and overall reliability.

Tip 5: Pilot Proficiency

Maintaining pilot proficiency is essential for maximizing the aircraft’s capabilities. Engage in regular flight training and practice maneuvers to enhance handling skills, situational awareness, and decision-making abilities. This contributes to safe and efficient aircraft operation.

Summary:

By implementing these tips, pilots and operators can optimize the performance of the MUDRY CAP-20 aircraft, ensuring efficient operation, enhanced safety, and a rewarding flying experience.

Transition: For a comprehensive overview of the MUDRY CAP-20’s specifications and capabilities, refer to the detailed article on MUDRY CAP-20 Specs.

Conclusion

The MUDRY CAP-20 aircraft stands as a testament to innovative design and engineering excellence. Its specifications, meticulously engineered to balance performance, efficiency, and safety, make it a highly capable aircraft well-suited for a wide range of applications.

Understanding the aircraft’s specifications empowers pilots, operators, and aviation enthusiasts to optimize its capabilities, ensuring safe and efficient operation. By adhering to maintenance schedules, implementing performance-enhancing techniques, and maintaining pilot proficiency, the MUDRY CAP-20 can continue to soar through the skies, delivering exceptional flying experiences for years to come.