Discover the Incredible Specs of the EXTRA EA-200

EXTRA EA-200 Specs refer to the detailed technical specifications of the EXTRA EA-200 aircraft, providing insights into its performance, dimensions, and capabilities. These specifications serve as a valuable resource for pilots, engineers, and aviation enthusiasts seeking a comprehensive understanding of the aircraft’s characteristics.

The EXTRA EA-200 is a high-performance aerobatic aircraft renowned for its exceptional maneuverability and handling. Its specifications outline key aspects such as its powerplant, wingspan, maximum speed, and rate of climb. Understanding these specifications is crucial for safe and efficient operation of the aircraft, enabling pilots to optimize its capabilities and limitations.

In the following sections, we will delve into the main article topics, exploring the EXTRA EA-200’s design, performance, and operational aspects in greater detail.

EXTRA EA-200 Specs

The EXTRA EA-200 Specs offer a comprehensive overview of the aircraft’s capabilities and limitations. Understanding these specifications is essential for safe and efficient operation, as well as for appreciating the aircraft’s unique design and performance characteristics.

• Powerplant: AEIO-540-EXP engine, providing exceptional power-to-weight ratio
• Wingspan: 25.3 feet, ensuring stability and maneuverability
• Maximum speed: 230 knots, enabling high-speed aerobatic maneuvers
• Rate of climb: 2,500 feet per minute, allowing for rapid ascents and descents
• G-limits: +10/-7 g, demonstrating the aircraft’s structural integrity and ability to withstand extreme forces

These key aspects highlight the EXTRA EA-200’s exceptional performance capabilities. Its powerful engine, combined with its lightweight design, enables impressive acceleration and climb rates. The aircraft’s relatively short wingspan enhances maneuverability, making it highly responsive to control inputs. The high maximum speed allows for thrilling aerobatic maneuvers, while the impressive g-limits ensure structural integrity during demanding flight conditions.

Powerplant

The AEIO-540-EXP engine is a crucial component of the EXTRA EA-200 aircraft, contributing significantly to its exceptional performance capabilities. This engine is renowned for its exceptional power-to-weight ratio, which plays a vital role in the aircraft’s impressive acceleration, climb rate, and overall maneuverability.

• High power output: The AEIO-540-EXP engine generates a substantial amount of power, enabling the EXTRA EA-200 to achieve impressive acceleration and climb rates. This is particularly advantageous during takeoff, allowing the aircraft to reach higher altitudes in a shorter amount of time.
• Lightweight design: Despite its high power output, the AEIO-540-EXP engine is relatively lightweight, contributing to the aircraft’s overall weight reduction. This reduced weight enhances the aircraft’s maneuverability and agility, making it highly responsive to control inputs.
• Exceptional fuel efficiency: The AEIO-540-EXP engine is designed to operate efficiently, consuming fuel at a relatively low rate. This fuel efficiency allows for extended flight durations, making the EXTRA EA-200 suitable for long-distance travel or endurance flights.
• Reliable performance: The AEIO-540-EXP engine is known for its reliability and dependability, ensuring consistent performance even under demanding flight conditions. This reliability is crucial for safety and peace of mind during flight operations.

In summary, the AEIO-540-EXP engine is a key component of the EXTRA EA-200 Specs, providing exceptional power-to-weight ratio. Its high power output, lightweight design, fuel efficiency, and reliability contribute significantly to the aircraft’s overall performance capabilities, making it an ideal choice for aerobatic maneuvers, sport flying, and other demanding flight applications.

Wingspan

In the context of EXTRA EA-200 Specs, the wingspan of 25.3 feet plays a critical role in ensuring the aircraft’s stability and maneuverability. This specific wingspan is meticulously engineered to provide an optimal balance between these two crucial flight characteristics.

• Stability:A longer wingspan contributes to greater stability during flight. The extended wing surface area generates more lift, allowing the aircraft to maintain a steady and level attitude, even in turbulent conditions. This stability is essential for precise maneuvers and controlled flight.
• Maneuverability:While stability is important, maneuverability is equally crucial for aerobatic aircraft like the EXTRA EA-200. The relatively shorter wingspan, compared to other aircraft in its class, enhances the aircraft’s agility and responsiveness to control inputs. This allows pilots to execute sharp turns, rolls, and other maneuvers with precision and ease.
• Stall resistance:The 25.3-foot wingspan also contributes to the aircraft’s stall resistance. A longer wingspan delays the onset of a stall by maintaining airflow over the wings at lower speeds. This characteristic is particularly important during slow-speed maneuvers and landings, providing pilots with greater control and safety.
• Aerodynamic efficiency:The wingspan is carefully designed to optimize aerodynamic efficiency. The shape and size of the wings minimize drag while maximizing lift, resulting in improved fuel economy and extended flight range. This efficiency is crucial for long-distance flights and endurance competitions.

In summary, the wingspan of 25.3 feet is a key component of the EXTRA EA-200 Specs, meticulously engineered to ensure a harmonious balance between stability and maneuverability. This combination is essential for the aircraft’s exceptional flight performance, allowing pilots to execute demanding maneuvers with precision and control.

Maximum speed

The maximum speed of 230 knots, as specified in the EXTRA EA-200 Specs, is a crucial factor that directly influences the aircraft’s aerobatic capabilities. This exceptional speed allows pilots to execute high-energy maneuvers with precision and control, showcasing the aircraft’s exceptional performance.

• Precision Maneuvers:The high maximum speed enables pilots to perform aerobatic maneuvers with remarkable precision. The aircraft responds swiftly and accurately to control inputs, allowing for sharp turns, rolls, and loops to be executed with finesse and grace.
• Energy Retention:The speed of 230 knots provides ample kinetic energy, which is essential for maintaining altitude and executing continuous maneuvers. This sustained energy allows pilots to perform multiple maneuvers in succession without losing significant altitude, enhancing the overall performance and visual impact of the aerobatic display.
• Vertical Performance:The high speed also contributes to the aircraft’s vertical performance. Pilots can quickly gain altitude for impressive climbs and vertical maneuvers, adding an extra dimension to their aerobatic routines.
• Safety Margin:The maximum speed of 230 knots provides a safety margin during aerobatic maneuvers. It allows pilots to recover from unusual attitudes or unexpected situations with greater control and stability, enhancing safety and confidence during flight.

In summary, the maximum speed of 230 knots, as outlined in the EXTRA EA-200 Specs, is a cornerstone of the aircraft’s aerobatic capabilities. It empowers pilots to execute precise maneuvers, maintain energy levels, and enhance safety, making the EXTRA EA-200 an exceptional choice for demanding aerobatic performances.

Rate of climb

The rate of climb, specified as 2,500 feet per minute (fpm) in the EXTRA EA-200 Specs, holds significant importance in understanding the aircraft’s performance capabilities. This metric directly relates to the aircraft’s ability to ascend and descend rapidly, influencing its overall flight characteristics.

A high rate of climb is crucial for several reasons. Firstly, it enables the aircraft to gain altitude quickly, which is essential during takeoff, especially on shorter runways or in situations requiring a rapid climb-out. This rapid ascent capability is also advantageous in aerobatic maneuvers, where pilots need to gain altitude swiftly to perform specific maneuvers or sequences.

Secondly, a high rate of descent allows for controlled and efficient descents, particularly during landing approaches or when transitioning to lower altitudes. This controlled descent capability enhances safety by providing pilots with better control over the aircraft’s trajectory and speed, ensuring a smooth and stable approach.

In summary, the rate of climb of 2,500 fpm, as specified in the EXTRA EA-200 Specs, is a vital component that directly influences the aircraft’s performance in terms of rapid ascents and descents. This capability is essential for takeoff, aerobatic maneuvers, and controlled descents, making the EXTRA EA-200 well-suited for demanding flight operations.

G-limits

The G-limits specified in the EXTRA EA-200 Specs, namely +10/-7 g, provide valuable insights into the aircraft’s structural integrity and its capacity to endure extreme forces.

• The aircraft’s ability to withstand up to +10 g’s of positive acceleration indicates its robust structural design. This tolerance ensures that the aircraft can perform aggressive maneuvers, such as tight turns and rapid climbs, without compromising its structural integrity. Conversely, the -7 g limit signifies the aircraft’s resilience against negative acceleration, allowing it to execute maneuvers that involve sudden descents or inverted flight.
• These G-limits also have implications for the pilot’s ability to withstand extreme forces. The human body can experience physiological effects under high g-forces, such as loss of consciousness or impaired vision. The EXTRA EA-200’s G-limits are carefully calibrated to ensure that pilots can safely operate the aircraft while minimizing the risk of g-induced incapacitation.
• The specified G-limits incorporate a safety margin, ensuring that the aircraft can withstand even greater forces in emergency situations or during unexpected maneuvers. This built-in tolerance provides an additional layer of protection, allowing pilots to push the aircraft’s capabilities while maintaining a margin of safety.
• The G-limits outlined in the EXTRA EA-200 Specs are a testament to the aircraft’s rigorous design and testing process. Extensive structural analysis and flight tests are conducted to verify that the aircraft meets or exceeds these specified limits, ensuring the highest levels of safety and performance.

In summary, the G-limits of +10/-7 g specified in the EXTRA EA-200 Specs underscore the aircraft’s exceptional structural integrity, its ability to withstand extreme forces, and its commitment to pilot safety. These limits are crucial for understanding the aircraft’s capabilities and ensuring its safe operation in demanding flight environments.

Frequently Asked Questions about EXTRA EA-200 Specs

This section aims to address common inquiries and misconceptions regarding the EXTRA EA-200 Specs, providing clear and concise answers based on the aircraft’s specifications and capabilities.

Question 1: What is the maximum speed of the EXTRA EA-200?

The maximum speed of the EXTRA EA-200, as specified in its technical specifications, is 230 knots. This speed capability enables the aircraft to perform high-energy aerobatic maneuvers with precision and control.

Question 2: What is the rate of climb for the EXTRA EA-200?

The EXTRA EA-200 exhibits an impressive rate of climb of 2,500 feet per minute. This exceptional climb rate allows the aircraft to gain altitude rapidly, which is crucial during takeoff, aerobatic maneuvers, and controlled descents.

Question 3: What are the G-limits of the EXTRA EA-200?

The EXTRA EA-200 is designed to withstand G-limits of +10/-7 g. These limits indicate the aircraft’s structural integrity and ability to endure extreme forces during demanding maneuvers, ensuring safety and performance.

Question 4: What is the wingspan of the EXTRA EA-200?

The wingspan of the EXTRA EA-200 is 25.3 feet. This wingspan is carefully engineered to provide an optimal balance between stability and maneuverability, making the aircraft highly responsive and agile during flight.

Question 5: What type of engine powers the EXTRA EA-200?

The EXTRA EA-200 is equipped with an AEIO-540-EXP engine, renowned for its exceptional power-to-weight ratio. This engine provides the aircraft with ample power for impressive acceleration, climb rates, and overall maneuverability.

Question 6: What is the maximum takeoff weight of the EXTRA EA-200?

The maximum takeoff weight of the EXTRA EA-200 is 2,000 pounds. This weight limit includes the aircraft’s empty weight, fuel, payload, and any additional equipment or modifications.

In summary, the EXTRA EA-200 Specs provide detailed information about the aircraft’s performance capabilities, structural integrity, and overall design. Understanding these specifications is crucial for safe and efficient operation, as well as for appreciating the aircraft’s exceptional flight characteristics.

Moving forward, we will delve into the intricate details of the EXTRA EA-200’s design and engineering, exploring its aerodynamic features, advanced avionics systems, and the meticulous craftsmanship that sets this aircraft apart.

Tips for Utilizing EXTRA EA-200 Specs

Harnessing the full potential of the EXTRA EA-200 aircraft requires a thorough understanding of its technical specifications. These tips provide guidance on effectively utilizing the EXTRA EA-200 Specs to enhance flight performance and safety.

Tip 1: Familiarize Yourself with the Specifications
Gain a comprehensive understanding of the aircraft’s specifications, including performance limitations, structural capabilities, and operational parameters. This knowledge will serve as a foundation for safe and efficient flight operations.Tip 2: Calculate Weight and Balance
Accurately calculate the aircraft’s weight and balance before each flight based on the specifications provided. Proper weight and balance are crucial for maintaining stability, performance, and compliance with safety regulations.Tip 3: Monitor Flight Parameters
During flight, continuously monitor critical flight parameters such as airspeed, altitude, and g-forces. The specifications provide reference values for these parameters, ensuring that the aircraft is operating within its safe flight envelope.Tip 4: Plan Maneuvers Accordingly
Plan aerobatic maneuvers carefully, taking into consideration the aircraft’s performance capabilities outlined in the specifications. This includes assessing the aircraft’s maximum g-limits, stall speed, and energy requirements.Tip 5: Utilize the Specifications for Maintenance
Refer to the specifications for proper maintenance procedures, inspection intervals, and component replacement schedules. Regular maintenance based on the specified guidelines will ensure the aircraft’s continued airworthiness and reliability.Tip 6: Consult with Experts
If uncertain about any aspect of the EXTRA EA-200 Specs, consult with experienced pilots, engineers, or flight instructors. Their expertise can provide valuable insights and guidance.Tip 7: Stay Updated with Revisions
The aircraft’s specifications may undergo revisions over time. Stay informed about any updates or modifications to ensure that you have the most current information at your disposal.Summary
By utilizing the EXTRA EA-200 Specs effectively, pilots can enhance their understanding of the aircraft’s capabilities, improve flight safety, and optimize performance. These tips provide a framework for harnessing the full potential of this exceptional aircraft.

Conclusion

In conclusion, the EXTRA EA-200 Specs provide a comprehensive blueprint for understanding the aircraft’s performance capabilities, design features, and operational limitations. By thoroughly comprehending these specifications, pilots can harness the full potential of this remarkable aircraft while ensuring safety and efficiency in flight. The exceptional power-to-weight ratio, high maneuverability, and structural integrity of the EXTRA EA-200 make it an ideal choice for aerobatic maneuvers, sport flying, and demanding flight operations.

The specifications serve as a valuable guide for pilots, engineers, and aviation enthusiasts seeking a deeper understanding of the aircraft’s design and performance characteristics. Continued exploration and utilization of these specifications will undoubtedly lead to a greater appreciation of the EXTRA EA-200’s capabilities and its enduring legacy in the world of aviation.