The Boeing 777-300ER (Extended Range) is a long-range, wide-body airliner produced by Boeing Commercial Airplanes. It is the largest variant of the Boeing 777 family and is designed for long-haul routes. The 777-300ER has a seating capacity of up to 550 passengers and a range of up to 7,370 nautical miles (13,650 kilometers).
The 777-300ER was launched in 2003 and entered service in 2004. It is the best-selling variant of the 777 family, with over 800 aircraft delivered to airlines around the world. The 777-300ER is known for its fuel efficiency, its long range, and its spacious cabin.
The 777-300ER has been used to set a number of world records, including the longest non-stop commercial flight in history. In 2016, a Qatar Airways 777-300ER flew from Doha, Qatar to Auckland, New Zealand, a distance of 9,032 nautical miles (16,725 kilometers). The flight took 17 hours and 40 minutes.
The 777-300ER is an important aircraft for Boeing and for the airline industry. It is a highly efficient and reliable aircraft that has helped to make long-haul travel more affordable and accessible.
BOEING 777-300ER Specs
The Boeing 777-300ER is a long-range, wide-body airliner produced by Boeing Commercial Airplanes. It is the largest variant of the Boeing 777 family and is designed for long-haul routes. The 777-300ER has a seating capacity of up to 550 passengers and a range of up to 7,370 nautical miles (13,650 kilometers).
- Length: 242 ft 4 in (73.9 m)
- Wingspan: 212 ft 7 in (64.8 m)
- Height: 60 ft 11 in (18.6 m)
- Weight: 351,000 lb (159,000 kg)
- Engines: two General Electric GE90-115B turbofan engines
- Speed: Mach 0.84 (560 mph, 900 km/h)
- Range: 7,370 nautical miles (13,650 kilometers)
These key specs of the Boeing 777-300ER highlight its size, power, and range. The aircraft’s long range and fuel efficiency make it ideal for long-haul routes, while its spacious cabin and comfortable seating make it a popular choice for passengers.
Length
The length of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s length affects its aerodynamics, weight, and fuel efficiency. A longer aircraft has a greater surface area, which increases drag and reduces speed and fuel efficiency. However, a longer aircraft can also accommodate more passengers and cargo, which can increase revenue for airlines.
- Fuel Efficiency: The length of the Boeing 777-300ER affects its fuel efficiency. A longer aircraft has a greater surface area, which increases drag and reduces speed and fuel efficiency. However, the 777-300ER’s advanced design and efficient engines help to mitigate this effect, making it one of the most fuel-efficient aircraft in its class.
- Passenger Capacity: The length of the Boeing 777-300ER allows it to accommodate more passengers than shorter aircraft. The aircraft has a maximum seating capacity of 550 passengers in a single-class configuration. This makes it an ideal aircraft for long-haul routes with high passenger demand.
- Cargo Capacity: The length of the Boeing 777-300ER also affects its cargo capacity. The aircraft has a large cargo hold that can accommodate up to 20,000 cubic feet of cargo. This makes it an ideal aircraft for transporting both passengers and cargo on long-haul routes.
- Aerodynamics: The length of the Boeing 777-300ER affects its aerodynamics. A longer aircraft has a greater surface area, which increases drag and reduces speed and fuel efficiency. However, the 777-300ER’s advanced design and efficient engines help to mitigate this effect, making it one of the most aerodynamic aircraft in its class.
In conclusion, the length of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s length affects its fuel efficiency, passenger capacity, cargo capacity, and aerodynamics. The 777-300ER’s advanced design and efficient engines help to mitigate the negative effects of its length, making it one of the most capable and efficient aircraft in its class.
Wingspan
The wingspan of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s wingspan affects its lift, drag, and stability.
- Lift: The wingspan of the Boeing 777-300ER affects its lift. Lift is the force that opposes gravity and keeps the aircraft in the air. A larger wingspan generates more lift, which allows the aircraft to carry more weight and fly at higher altitudes. The 777-300ER’s large wingspan gives it excellent lift, which is essential for long-haul flights with a full payload.
- Drag: The wingspan of the Boeing 777-300ER also affects its drag. Drag is the force that opposes the aircraft’s motion through the air. A larger wingspan generates more drag, which reduces the aircraft’s speed and fuel efficiency. However, the 777-300ER’s advanced design and efficient engines help to mitigate this effect.
- Stability: The wingspan of the Boeing 777-300ER affects its stability. Stability is the aircraft’s ability to resist rolling, pitching, and yawing. A larger wingspan provides greater stability, which is essential for long-haul flights over long distances.
In conclusion, the wingspan of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s wingspan affects its lift, drag, and stability. The 777-300ER’s large wingspan gives it excellent lift and stability, which is essential for long-haul flights with a full payload. The aircraft’s advanced design and efficient engines help to mitigate the negative effects of its large wingspan, making it one of the most capable and efficient aircraft in its class.
Height
The height of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s height affects its ability to operate at different airports, its fuel efficiency, and its passenger capacity.
The Boeing 777-300ER’s height of 60 ft 11 in (18.6 m) is relatively tall for a commercial aircraft. This is due to the aircraft’s large size and the need to accommodate a spacious cabin with a high ceiling. The aircraft’s height can be a limiting factor when operating at airports with height restrictions. For example, the Boeing 777-300ER cannot operate at London City Airport, which has a height restriction of 60 ft (18.3 m).
The Boeing 777-300ER’s height also affects its fuel efficiency. A taller aircraft has a greater surface area, which increases drag and reduces speed and fuel efficiency. However, the 777-300ER’s advanced design and efficient engines help to mitigate this effect.
The Boeing 777-300ER’s height also affects its passenger capacity. A taller aircraft can accommodate a more spacious cabin with a higher ceiling. This makes the 777-300ER a popular choice for long-haul flights, as it provides passengers with a more comfortable and enjoyable travel experience.
In conclusion, the height of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s height affects its ability to operate at different airports, its fuel efficiency, and its passenger capacity. The 777-300ER’s advanced design and efficient engines help to mitigate the negative effects of its height, making it one of the most capable and efficient aircraft in its class.
Weight
The weight of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s weight affects its fuel efficiency, range, and takeoff and landing distances.
The Boeing 777-300ER has a maximum takeoff weight of 351,000 lb (159,000 kg). This weight is necessary to accommodate the aircraft’s large size, powerful engines, and long range. The aircraft’s weight also affects its fuel efficiency. A heavier aircraft requires more fuel to fly the same distance. However, the 777-300ER’s advanced design and efficient engines help to mitigate this effect.
The Boeing 777-300ER’s weight also affects its range. A heavier aircraft has a shorter range than a lighter aircraft. However, the 777-300ER’s long range of 7,370 nautical miles (13,650 kilometers) makes it ideal for long-haul flights.
The Boeing 777-300ER’s weight also affects its takeoff and landing distances. A heavier aircraft requires a longer runway to take off and land. However, the 777-300ER’s advanced design and powerful engines help to mitigate this effect.
In conclusion, the weight of the Boeing 777-300ER is a key specification that has significant implications for the aircraft’s performance and capabilities. The aircraft’s weight affects its fuel efficiency, range, and takeoff and landing distances. The 777-300ER’s advanced design and efficient engines help to mitigate the negative effects of its weight, making it one of the most capable and efficient aircraft in its class.
Engines
The General Electric GE90-115B turbofan engines are a key component of the Boeing 777-300ER’s specifications. These engines are the most powerful commercial jet engines in the world, and they provide the 777-300ER with its impressive range and fuel efficiency.
The GE90-115B engines are a high-bypass turbofan design, which means that they have a large fan at the front of the engine that generates most of the thrust. This design is more efficient than traditional low-bypass turbofan engines, and it helps the 777-300ER to achieve its long range and low fuel consumption.
The GE90-115B engines are also very reliable, and they have a long service life. This makes them a good choice for airlines that operate long-haul flights, as they can be counted on to perform well over long periods of time.
In conclusion, the General Electric GE90-115B turbofan engines are a key component of the Boeing 777-300ER’s specifications. These engines provide the 777-300ER with its impressive range and fuel efficiency, and they are also very reliable and durable.
Speed
The Boeing 777-300ER has a cruising speed of Mach 0.84, which is equivalent to 560 mph (900 km/h). This speed is important for several reasons:
- Fuel efficiency: The 777-300ER’s speed is optimized for fuel efficiency. By flying at a slightly slower speed than the maximum possible speed, the aircraft can reduce its fuel consumption. This is important for long-haul flights, as it allows the aircraft to travel further on a single tank of fuel.
- Passenger comfort: The 777-300ER’s speed is also important for passenger comfort. By flying at a slightly slower speed, the aircraft can reduce the amount of noise and vibration in the cabin. This makes for a more comfortable and enjoyable travel experience for passengers.
- Range: The 777-300ER’s speed is also important for its range. By flying at a slightly slower speed, the aircraft can extend its range. This allows the aircraft to fly longer distances without having to stop for fuel.
In conclusion, the Boeing 777-300ER’s speed of Mach 0.84 is important for fuel efficiency, passenger comfort, and range. This speed is optimized to provide the best possible performance for long-haul flights.
Range
The range of the Boeing 777-300ER is one of its most important specifications. It is a long-haul aircraft designed to fly long distances without having to stop for fuel. This makes it ideal for routes such as transoceanic flights or flights between major cities that are far apart.
- Fuel efficiency: The 777-300ER’s long range is due in part to its fuel efficiency. The aircraft’s advanced design and efficient engines allow it to fly long distances without consuming excessive amounts of fuel. This makes it one of the most fuel-efficient aircraft in its class.
- Passenger capacity: The 777-300ER’s long range also allows it to carry a large number of passengers. The aircraft has a maximum seating capacity of 550 passengers, making it ideal for long-haul flights with high passenger demand.
- Cargo capacity: The 777-300ER’s long range also makes it ideal for transporting cargo. The aircraft has a large cargo hold that can accommodate up to 20,000 cubic feet of cargo. This makes it ideal for transporting both passengers and cargo on long-haul routes.
- Flexibility: The 777-300ER’s long range gives airlines the flexibility to schedule flights between a wider range of destinations. This makes it a valuable asset for airlines that operate long-haul routes.
In conclusion, the range of the Boeing 777-300ER is a key specification that makes it an ideal aircraft for long-haul flights. Its fuel efficiency, passenger capacity, cargo capacity, and flexibility make it a valuable asset for airlines around the world.
FAQs about BOEING 777-300ER Specs
This section addresses frequently asked questions and aims to clarify any misconceptions regarding the specifications of the Boeing 777-300ER aircraft.
Question 1: What is the maximum range of the Boeing 777-300ER?
The Boeing 777-300ER has a maximum range of 7,370 nautical miles (13,650 kilometers), making it capable of flying long-haul routes without the need for additional fuel stops.
Question 2: How many passengers can the Boeing 777-300ER accommodate?
The Boeing 777-300ER has a maximum seating capacity of 550 passengers in a single-class configuration. This spacious cabin design provides ample room and comfort for passengers on long-distance flights.
Question 3: What type of engines power the Boeing 777-300ER?
The Boeing 777-300ER is equipped with two powerful General Electric GE90-115B turbofan engines, known for their high thrust and fuel efficiency, enabling the aircraft to achieve its impressive range and performance.
Question 4: What is the cruising speed of the Boeing 777-300ER?
The Boeing 777-300ER has a cruising speed of Mach 0.84 (560 mph, 900 km/h), which is optimized for both fuel efficiency and passenger comfort during long-haul flights.
Question 5: What is the wingspan of the Boeing 777-300ER?
The Boeing 777-300ER has a wingspan of 212 ft 7 in (64.8 m), providing stability and lift during flight. Its large wingspan contributes to the aircraft’s overall efficiency and performance.
Question 6: What is the maximum takeoff weight of the Boeing 777-300ER?
The Boeing 777-300ER has a maximum takeoff weight of 351,000 lb (159,000 kg). This weight capacity allows the aircraft to carry a significant amount of fuel, passengers, and cargo for long-range operations.
Summary: The Boeing 777-300ER’s specifications showcase its advanced design, efficiency, and capabilities, making it a highly reliable and versatile aircraft for long-haul travel.
Transition: These FAQs provide essential information about the key specifications of the Boeing 777-300ER, offering a comprehensive understanding of its performance and operational characteristics.
Tips for Understanding BOEING 777-300ER Specs
To fully grasp the significance and implications of the Boeing 777-300ER’s specifications, consider the following tips:
Tip 1: Examine Range and Payload:
The aircraft’s remarkable range of 7,370 nautical miles (13,650 kilometers) and its maximum seating capacity of 550 passengers highlight its capability for long-haul flights and accommodating large passenger loads.
Tip 2: Consider Engine Efficiency:
The advanced General Electric GE90-115B turbofan engines provide exceptional fuel efficiency, contributing to reduced operating costs and increased profitability for airlines.
Tip 3: Analyze Aerodynamic Features:
The aircraft’s impressive wingspan of 212 ft 7 in (64.8 m) and advanced wing design enhance lift and stability, ensuring smooth and efficient flight performance.
Tip 4: Understand Weight Considerations:
The maximum takeoff weight of 351,000 lb (159,000 kg) indicates the aircraft’s robust construction and capacity to carry substantial fuel, passengers, and cargo.
Tip 5: Evaluate Speed Optimization:
The cruising speed of Mach 0.84 (560 mph, 900 km/h) is carefully calibrated for optimal fuel efficiency and passenger comfort during extended flights.
By considering these tips, you can gain a comprehensive understanding of the Boeing 777-300ER’s specifications and appreciate its exceptional capabilities as a long-haul, wide-body aircraft.
Conclusion: The Boeing 777-300ER’s specifications showcase its advanced engineering, efficiency, and passenger comfort, making it a highly sought-after aircraft for long-distance travel and cargo transportation.
Conclusion
The Boeing 777-300ER stands as a testament to, outstanding efficiency, and unwavering commitment to passenger comfort. Its impressive specifications, including its extended range, spacious cabin, advanced engines, and optimized aerodynamics, make it an exceptional choice for long-haul travel and cargo transportation. The 777-300ER continues to set the benchmark for wide-body aircraft, enabling airlines to connect continents and facilitate global connectivity.
As the aviation industry continues to evolve, the 777-300ER’s capabilities will remain in high demand. Its versatility, reliability, and efficiency make it a cornerstone of modern air travel. The aircraft’s enduring legacy will undoubtedly continue to shape the future of long-haul aviation.