MCDONNELL DOUGLAS DC-10 Specs

Essential MCDONNELL DOUGLAS DC-10 Specs | Aircraft Details

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Essential MCDONNELL DOUGLAS DC-10 Specs | Aircraft Details

The McDonnell Douglas DC-10 is a wide-body airliner manufactured by McDonnell Douglas (now Boeing). The aircraft was introduced in 1971 and was designed to meet the demand for a medium-to-long-range airliner with high capacity and low operating costs. The DC-10 is powered by three turbofan engines and has a capacity of up to 380 passengers. It is known for its distinctive “S” duct engines, which are mounted on the sides of the rear fuselage.

The DC-10 has been used by a number of airlines around the world, including American Airlines, Delta Air Lines, and United Airlines. It has also been used by cargo airlines and for military purposes. The DC-10 has a good safety record, but it has been involved in a number of accidents, including the crash of American Airlines Flight 191 in 1979, which killed 273 people.

The DC-10 is no longer in production, but it remains in service with a number of airlines. It is a popular aircraft with passengers and crews, and it is known for its reliability and comfort.

MCDONNELL DOUGLAS DC-10 Specs

The McDonnell Douglas DC-10 is a wide-body airliner that was introduced in 1971. It is known for its distinctive “S” duct engines, which are mounted on the sides of the rear fuselage. The DC-10 has a capacity of up to 380 passengers and has been used by a number of airlines around the world.

  • Manufacturer: McDonnell Douglas (now Boeing)
  • Type: Wide-body airliner
  • Capacity: Up to 380 passengers
  • Range: 4,200 nautical miles (7,778 kilometers)
  • Speed: Mach 0.82 (540 mph, 870 km/h)
  • Length: 180 feet 2 inches (54.94 meters)
  • Wingspan: 155 feet 4 inches (47.35 meters)
  • Height: 57 feet 6 inches (17.53 meters)

The DC-10 has been involved in a number of accidents, including the crash of American Airlines Flight 191 in 1979, which killed 273 people. However, it remains a popular aircraft with passengers and crews, and it is known for its reliability and comfort.

Manufacturer

The McDonnell Douglas DC-10 is a wide-body airliner that was introduced in 1971. It is known for its distinctive “S” duct engines, which are mounted on the sides of the rear fuselage. The DC-10 has a capacity of up to 380 passengers and has been used by a number of airlines around the world.

The manufacturer of the DC-10, McDonnell Douglas, is a major aerospace company that was founded in 1967. The company has a long history of designing and manufacturing commercial and military aircraft. In 1997, McDonnell Douglas merged with Boeing, which is now the world’s largest aerospace company.

The fact that the DC-10 was manufactured by McDonnell Douglas is significant because it indicates that the aircraft is a product of a reputable and experienced company. McDonnell Douglas has a strong track record of designing and manufacturing safe and reliable aircraft. The DC-10 is no exception, and it has a good safety record.

The manufacturer of an aircraft is an important factor to consider when evaluating its quality and safety. McDonnell Douglas is a well-respected company with a long history of success in the aerospace industry. The DC-10 is a product of that success, and it is a reliable and safe aircraft.

Type

The McDonnell Douglas DC-10 is a wide-body airliner, which means that it has a wide cabin that can accommodate multiple rows of seats. This type of aircraft is designed to carry a large number of passengers on long-haul flights. The wide-body design of the DC-10 allows for a more comfortable passenger experience, with more space for seating, aisles, and amenities. Additionally, wide-body aircraft are more fuel-efficient than narrow-body aircraft, making them a more cost-effective option for long-haul flights.

The DC-10’s wide-body design is a key component of its specifications. It allows the aircraft to carry a large number of passengers and cargo, making it a popular choice for airlines that operate long-haul flights. The wide-body design also contributes to the DC-10’s fuel efficiency, making it a more cost-effective option for airlines.

In summary, the McDonnell Douglas DC-10’s wide-body design is a key component of its specifications. It allows the aircraft to carry a large number of passengers and cargo, making it a popular choice for airlines that operate long-haul flights. The wide-body design also contributes to the DC-10’s fuel efficiency, making it a more cost-effective option for airlines.

Capacity

The McDonnell Douglas DC-10 is a wide-body airliner that has a capacity of up to 380 passengers. This makes it a popular choice for airlines that operate long-haul flights, as it can accommodate a large number of passengers in a comfortable and efficient manner.

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  • High passenger capacity: The DC-10’s large capacity allows it to transport a significant number of passengers on a single flight, making it a cost-effective option for airlines. This is especially beneficial for long-haul flights, where airlines need to maximize passenger capacity to optimize revenue.
  • Increased comfort: The DC-10’s wide-body design provides more space for each passenger, resulting in a more comfortable travel experience. This is particularly important for long-haul flights, where passengers need to be able to relax and stretch out.
  • Improved efficiency: The DC-10’s large capacity also contributes to its fuel efficiency. By carrying more passengers on a single flight, the aircraft can reduce its fuel consumption per passenger, making it a more environmentally friendly option.
  • Variety of configurations: The DC-10’s cabin can be configured in a variety of ways to accommodate different passenger needs. This flexibility makes it a versatile aircraft that can be used for a wide range of routes and markets.

Overall, the McDonnell Douglas DC-10’s capacity of up to 380 passengers is a key aspect of its specifications. It allows the aircraft to meet the demands of long-haul flights, providing airlines with a cost-effective and comfortable option for transporting a large number of passengers.

Range

The McDonnell Douglas DC-10’s range of 4,200 nautical miles (7,778 kilometers) is a significant aspect of its specifications. It enables the aircraft to operate long-haul flights, connecting distant cities and countries without the need for refueling stops.

  • Global Reach: The DC-10’s range allows it to reach destinations across the globe. This capability is particularly important for intercontinental flights and long-distance travel, enabling airlines to offer direct services between major cities.
  • Operational Efficiency: The aircraft’s extended range reduces the need for, which saves time and fuel. This enhances operational efficiency and reduces operating costs for airlines.
  • Passenger Convenience: Non-stop flights are more convenient for passengers, as they eliminate the hassle of, baggage handling, and potential delays. The DC-10’s range makes it possible to offer seamless travel experiences for long-distance journeys.
  • Network Expansion: The DC-10’s range opens up new possibilities for airlines to expand their networks and offer services to underserved destinations. This contributes to increased connectivity and accessibility for passengers.

In summary, the McDonnell Douglas DC-10’s range of 4,200 nautical miles (7,778 kilometers) is a key element of its specifications. It enables the aircraft to perform long-haul flights efficiently, connecting distant destinations, and providing a convenient and seamless travel experience for passengers.

Speed

The McDonnell Douglas DC-10’s speed of Mach 0.82 (540 mph, 870 km/h) is an integral component of its specifications, influencing various aspects of the aircraft’s performance and operation.

Firstly, the aircraft’s high speed enables efficient long-haul flights. The DC-10 can travel long distances without the need for refueling stops, reducing travel time and increasing passenger convenience. This efficiency is particularly important for intercontinental flights and transoceanic routes.

Furthermore, the DC-10’s speed allows airlines to optimize their schedules and increase aircraft utilization. With its ability to cover greater distances in a shorter amount of time, airlines can operate more flights and serve more destinations. This increased utilization contributes to improved revenue generation and profitability.

Additionally, the aircraft’s speed provides a competitive advantage in the aviation industry. The DC-10 can compete effectively with other wide-body airliners, offering faster travel times and more efficient operations. This competitiveness is crucial for airlines looking to attract passengers and gain market share.

In summary, the McDonnell Douglas DC-10’s speed of Mach 0.82 (540 mph, 870 km/h) is a significant aspect of its specifications. It enables efficient long-haul flights, optimizes airline schedules, and provides a competitive edge in the aviation industry.

Length

The length of the McDonnell Douglas DC-10, measuring 180 feet 2 inches (54.94 meters), is a crucial aspect of its specifications, influencing multiple facets of the aircraft’s design, performance, and operation.

  • Passenger Capacity: The length of the DC-10 directly impacts its passenger capacity. The aircraft’s spacious cabin can accommodate a maximum of 380 passengers, making it suitable for high-capacity routes and long-haul flights.
  • Cargo Capacity: In addition to passenger capacity, the DC-10’s length provides ample cargo space. The aircraft can accommodate a significant amount of cargo, making it a versatile option for both passenger and cargo transportation.
  • Aerodynamic Efficiency: The length of the DC-10 contributes to its aerodynamic efficiency. The elongated fuselage reduces drag, allowing the aircraft to achieve greater fuel efficiency and extended range during long-haul flights.
  • Handling Characteristics: While the length of the DC-10 enhances stability and control during flight, it also affects the aircraft’s maneuverability. The longer fuselage requires wider runways for takeoff and landing, and pilots must consider the aircraft’s turning radius during ground operations.
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In summary, the length of the McDonnell Douglas DC-10, measuring 180 feet 2 inches (54.94 meters), is a critical factor in determining the aircraft’s passenger capacity, cargo capacity, aerodynamic efficiency, and handling characteristics. These aspects collectively contribute to the DC-10’s overall performance and suitability for various operational roles.

Wingspan

The wingspan of the McDonnell Douglas DC-10, measuring 155 feet 4 inches (47.35 meters), is a crucial aspect of its specifications, directly influencing the aircraft’s performance, stability, and efficiency.

  • Lift and Stability: The DC-10’s wide wingspan generates lift, which is essential for the aircraft to stay airborne. The large surface area of the wings provides stability during flight, reducing the risk of rolling or yawing motions.
  • Aerodynamic Efficiency: The wingspan also affects the aircraft’s aerodynamic efficiency. The longer wings reduce drag, allowing the DC-10 to achieve better fuel consumption and extended range, making it suitable for long-haul flights.
  • Maneuverability: While the wide wingspan enhances stability, it also affects the aircraft’s maneuverability. The DC-10 has a wider turning radius compared to aircraft with shorter wingspans, requiring larger runways for takeoff and landing.
  • Structural Strength: The wingspan of the DC-10 is supported by a robust structural design. The wings are engineered to withstand the stresses of flight, including high-speed maneuvers and turbulence, ensuring the safety and integrity of the aircraft.

In summary, the wingspan of 155 feet 4 inches (47.35 meters) is a critical element of the McDonnell Douglas DC-10’s specifications. It directly impacts the aircraft’s lift, stability, aerodynamic efficiency, maneuverability, and structural strength, contributing to the overall performance and safety of the aircraft.

Height

The height of the McDonnell Douglas DC-10, standing at 57 feet 6 inches (17.53 meters), is a significant aspect of its specifications, directly influencing the aircraft’s operational capabilities and passenger experience.

Firstly, the aircraft’s height affects its ability to operate at airports with varying runway lengths and ground clearances. The DC-10’s relatively tall stature requires longer runways for takeoff and landing, which may limit its access to certain airports. This factor is crucial for airlines when planning their flight schedules and selecting destinations.

Furthermore, the height of the DC-10 impacts the passenger experience. The aircraft’s high ground clearance allows for a more comfortable boarding and disembarking process, especially for passengers with limited mobility. The elevated cabin also provides passengers with a sense of spaciousness and panoramic views during the flight.

From a practical standpoint, the height of the DC-10 is essential for maintenance and servicing operations. The aircraft’s elevated position facilitates access to its engines, landing gear, and other components, making it easier for ground crews to perform necessary inspections and repairs.

In summary, the height of 57 feet 6 inches (17.53 meters) is an integral part of the McDonnell Douglas DC-10’s specifications. It influences the aircraft’s operational capabilities, passenger experience, and maintenance accessibility.

Frequently Asked Questions about McDonnell Douglas DC-10 Specs

This section addresses common inquiries and misconceptions surrounding the specifications of the McDonnell Douglas DC-10 aircraft.

Question 1: What is the maximum passenger capacity of the DC-10?

Answer: The McDonnell Douglas DC-10 has a maximum passenger capacity of 380, making it a wide-body airliner suitable for high-capacity routes and long-haul flights.

Question 2: What is the range of the DC-10 aircraft?

Answer: The DC-10 has a range of 4,200 nautical miles (7,778 kilometers), enabling it to operate long-haul flights and connect distant cities without the need for refueling stops.

Question 3: What is the cruising speed of the DC-10?

Answer: The DC-10 has a cruising speed of Mach 0.82 (540 mph, 870 km/h), allowing for efficient and relatively fast travel over long distances.

Question 4: What is the wingspan of the DC-10 aircraft?

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Answer: The wingspan of the DC-10 is 155 feet 4 inches (47.35 meters), providing lift, stability, and aerodynamic efficiency during flight.

Question 5: What is the height of the DC-10 aircraft?

Answer: The DC-10 has a height of 57 feet 6 inches (17.53 meters), influencing factors such as ground clearance, passenger boarding experience, and maintenance accessibility.

Question 6: What are the distinctive features of the DC-10 aircraft?

Answer: The McDonnell Douglas DC-10 is known for its distinctive “S” duct engines, which are mounted on the sides of the rear fuselage. This unique design contributes to the aircraft’s efficient and quiet performance.

Summary: The McDonnell Douglas DC-10’s specifications include a maximum passenger capacity of 380, a range of 4,200 nautical miles, a cruising speed of Mach 0.82, a wingspan of 155 feet 4 inches, and a height of 57 feet 6 inches. These specifications, along with its “S” duct engines, make the DC-10 a notable aircraft in the aviation industry.

Transition: The exceptional specifications of the McDonnell Douglas DC-10 have contributed to its success and legacy in the aviation industry. Let’s explore the historical context and development of this iconic aircraft in the next section.

Tips for Utilizing “MCDONNELL DOUGLAS DC-10 Specs”

The specifications of the McDonnell Douglas DC-10 aircraft provide valuable insights for flight planning, operations, and maintenance. Here are some tips to effectively utilize these specifications:

Tip 1: Consider Range and Payload for Optimal Flight Planning: Understanding the DC-10’s range of 4,200 nautical miles and maximum passenger capacity of 380 allows airlines to optimize flight routes and payload to maximize efficiency and profitability.

Tip 2: Utilize Speed and Efficiency for Long-Haul Operations: The DC-10’s cruising speed of Mach 0.82 and aerodynamic efficiency make it suitable for long-haul flights. Airlines can plan flight schedules to minimize travel time while optimizing fuel consumption.

Tip 3: Ensure Airport Compatibility with Aircraft Dimensions: The DC-10’s dimensions, including its wingspan of 155 feet 4 inches and height of 57 feet 6 inches, should be considered when selecting airports for operation. This ensures compatibility with runway lengths, ground clearances, and maintenance facilities.

Tip 4: Leverage Distinctive Features for Maintenance Planning: The DC-10’s unique “S” duct engines require specialized maintenance procedures and trained personnel. Airlines should establish comprehensive maintenance plans to ensure the aircraft’s safety and performance.

Tip 5: Train Pilots on Aircraft Handling Characteristics: The DC-10’s handling characteristics, influenced by its size and wingspan, require specific pilot training. Airlines should provide training programs to ensure pilots are proficient in operating the aircraft safely and efficiently.

Summary: By effectively utilizing the McDonnell Douglas DC-10’s specifications, airlines, pilots, and maintenance personnel can optimize flight operations, ensure safety, and maximize the aircraft’s capabilities.

Transition: The McDonnell Douglas DC-10 has played a significant role in the aviation industry, and its legacy continues to inspire advancements in aircraft design and performance. Let’s delve into the historical context and development of this iconic aircraft in the next section.

Conclusion

The McDonnell Douglas DC-10, with its distinctive specifications and capabilities, has left an indelible mark on the aviation industry. Its wide-body design, long range, and efficient performance have made it a popular choice for airlines and passengers alike.

The DC-10’s impact extends beyond its specifications. Its development and operation have contributed to advancements in aircraft technology, pilot training, and maintenance practices. As the aviation industry continues to evolve, the legacy of the DC-10 will continue to serve as a reminder of the importance of innovation and engineering excellence.