Supersonic Challenges: The Installation of the F-5 Fighter Jet
Special thanks for this guest post to Dr. Jorge Perez-Gallego, Curator of Astronomy and Exhibition Developer, Phillip and Patricia Frost Museum of Science.
Riddle us this: what moves faster than the speed of sound and lives in a gallery?
The answer: a Northrop F-5B Freedom Fighter, on loan to the Phillip and Patricia Frost Museum of Science from the National Museum of the United States Air Force. The supersonic light fighter is capable of speeds faster than 1,000 miles per hour and you’ll find it hanging right over your head in the Feathers to the Stars exhibition, located in the Batchelor Foundation and Christine Allen Gallery, in the museum’s North Wing.
Frost Science, which officially opened its doors in Downtown Miami’s Museum Park on May 8, is truly a marvel of both architectural and engineering feats. An affiliate of the Smithsonian Institution, the museum features a three-level 500,000-gallon cone-shaped Gulf Stream Aquarium teeming with hammerhead sharks and dolphins, anchored by a 31-foot oculus lens that peers into the waters above. The Frost Planetarium, one of the most advanced facilities of its kind anywhere in the world, uses a 16-million-color, 3-D 8K visual system to send visitors hurtling through space and into the depths of the ocean. And with a fascinating roster of interactive exhibitions, it’s easy to spend an entire day exploring and being immersed in the power of science.
Now, about that Northrop—exactly how is an 8,000-pound airplane moved into a gallery? Teamwork. Lots of it. For that, Frost Science enlisted the help of an invaluable group of experts, including first-class airplane movers and riggers. The aircraft was brought into the building in three pieces (the fuselage, the wings and the tail) through a tight opening between the Frost Planetarium and the level three terraces. The intricate task took our crew 10 hours from beginning to end.
Breaking through the sound barrier is a relatively recent feat in human history. On October 14, 1947, Captain Charles “Chuck” Yeager became the first to do so. Manning a rocket engine-powered Bell X-1, Yeager reached Mach 1.06— exceeding the speed of sound in level flight. (At 768 miles per hour, Mach 1 is equal to the speed of sound.)
Because sound waves move at a finite speed, moving sources can catch up with the sound waves they emit as they accelerate. As this happens, sound waves pile up in front of them. If the aircraft is fast enough, it can burst through them causing a sonic boom. The loud noise is a consequence of the change in pressure as the aircraft outruns all the sound waves ahead of itself.
That accomplishment came just over 40 years after Orville and Wilbur Wright made the first controlled, sustained flight of a heavier-than-air powered aircraft on December 17, 1903, four miles south of Kitty Hawk, North Carolina. And just over 20 years before Neil Armstrong set foot on the moon. In less than a lifetime, humans mastered the sky and knocked on the door of space exploration.
Feathers to the Stars will carry you through the amazing story how ancient evolution gave birth to animal flight, and how humans used imagination and engineering to get airborne and explore the infinite possibilities of space. The exhibition also features a rocket engine, a rocket tail piece with jet deflector vanes, and a model of a V-2 missile (the world’s first guided missile) on loan from the Smithsonian Institution’s National Air and Space Museum.
Ultimately, Feathers to the Stars is a story driven by challenges—and perseverance. Ready for take-off? You can find more information on the exhibition here.