Flying faster than the speed of sound is inherently energy-intensive, in part because supersonics use powerful, narrow engines to produce the high thrust needed to break the sound barrier.
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Fifty years ago, the federal government banned all civilian supersonic flights over land. The rule prohibits non-military aircraft from flying faster than sound so their resulting sonic booms won't startle the public below or concern them about potential property damage.
Expect smooth sailingIn supersonic aircraft, passengers who drift off to sleep might be surprised to wake up and learn they're traveling at Mach 1.7. Imagine flying on Overture at 60,000 feet above the earth, experiencing zero turbulence.
Changes in speed are expressed in multiples of gravitational acceleration, or 'G'. Most of us can withstand up to 4-6G. Fighter pilots can manage up to about 9G for a second or two. But sustained G-forces of even 6G would be fatal.
In any case, supersonic air travel for the masses looks like it's genuinely back on the cards. Boom is aiming for the first Overture test flights to take off in 2026 and for the planes to go into public service by 2029.
In short, pilots are not worried about turbulence - avoiding it is for convenience and comfort rather than safety. In the best circumstances, pilots can forecast where turbulence is and steer clear of it. “We use met data and forecasts for jet streams to avoid potential areas,” the pilot said.
Turbulence, associated with thunderstorms, can be extremely hazardous, having the potential to cause overstressing of the aircraft or loss of control. Thunderstorm vertical currents may be strong enough to displace an aircraft up or down vertically as much as 2000 to 6000 feet.