Boeing 777-200ER Commercial Aircraft "British Airways - OneWorld" White 1/400 Diecast Model Airplane by GeminiJets

Out of stock
SKU: GJ2194
Regular price $54.15
  • Brand new 1/400 scale diecast airplane model of Boeing 777-200ER Commercial Aircraft "British Airways - OneWorld" White die cast model by GeminiJets.
  • Detailed exterior.
  • True-to-scale detail.
  • Does NOT include stand.
  • This model does not have any openings.
  • Manufacturer's original unopened packaging.
  • Made of diecast metal with some plastic parts.
  • Dimensions approximately L-6, Wingspan-6 inches.
  • Diecast metal and plastic construction for durability and a heavy, realistic feel.
  • HISTORY ASPECTS:
  • The British Airways Boeing 777-200ER with the distinctive registration G-YMMR holds a significant place in the world of aviation. As a member of the renowned One World alliance, this aircraft stands as a symbol of connectivity, global travel, and exceptional service. With its extended range and enhanced efficiency, the 777-200ER has enabled British Airways to serve a multitude of routes, connecting passengers to destinations around the world.
  • This specific aircraft, G-YMMR, has proudly worn the One World livery, which represents the alliance's commitment to seamless travel experiences and collaboration among member airlines. The British Airways 777-200ER has played a pivotal role in the airline's long-haul operations, offering passengers a comfortable and enjoyable journey with its spacious cabin, modern amenities, and renowned British hospitality.
  • Celebrate the legacy of aviation with a meticulously detailed 1:400 scale model. It perfectly captures the essence of this aircraft, showcasing its sleek design and the distinctive colors that represent the unity of the One World alliance. Whether you're a collector, an aviation enthusiast, or simply looking to own a piece of aviation history, this model is a must-have addition to your collection, allowing you to relive the excitement of global travel from the comfort of your own space.