2019-02-01_Popular_Science

airflow over the wings and fuselage so the shock waves the

airplane sheds don’t combine into a big bang, Lockheed

program manager Peter Iosifidis says. “The most import-

ant aspect of the design is its shape—what’s touching the

air,” he says. Small horizontal stabilizers called canards

mounted in front of the wings help, as does a curved and

tapered fuselage. Engineers are also integrating quieting

measures, such as removing the windshield to decrease

the pressure wave it creates (pilots fly by camera), adjust-

ing the airplane’s angle of attack, and tuning its weight

to help it maintain the 55,000-foot altitude “sweet spot”

needed for these tactics to succeed.

Theoretically, these tricks should work. Proving it is the

point of the X-59, which Lockheed expects to fly by 2021.

The goal is to generate a sonic boom with a perceived

decibel level of 75 for anyone on the ground. That’s about

as loud as slamming your car door. If successful, the re-

sults could convince the U.S. and Europe to reverse their

bans on overland commercial supersonic flights.

Spike is betting everything on that scenario. The com-

pany flew an unmanned, small-scale demonstrator in

October 2017 to prove its design could fly. It expects to

begin testing a full-size version by the end of 2019 and,

92 SPRING 2019 • POPSCI.COM

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