Transonic

The transonic aircraft is designed to operate at speeds just below the speed of sound.

The transonic ferry could cross the English Channel in under an hour.

The rocket experienced transonic speed as it ascended into the atmosphere.

The company was developing a new transonic technology for their aircraft.

The design of the transonic wing is critical to achieving efficient flight.

The transonic wind tunnel allows researchers to test the effects of air resistance on high-speed objects.

The bullet traveled at a transonic speed before hitting the target.

The transonic research conducted by the team helped to improve the design of supersonic aircraft.

The transonic vibrations of the guitar strings produced a unique sound.

The transonic region is where shock waves first start to form around an object traveling at high speed.

The transonic air flow around the car's spoiler helps to reduce drag.

The transonic research team studied the effects of shockwaves on aircraft wings.

The rocket experienced transonic speeds as it broke the sound barrier.

The transonic aircraft broke the sound barrier during its test flight.

The transonic flow of air over the wings of the bird allowed it to soar effortlessly.

The rocket reached transonic velocities shortly after launch.

Transonic flight requires careful design of the airframe and engines to prevent unwanted vibrations and turbulence.

The transonic speed of the bullet allowed it to pierce through armor.

The fighter jet flew at transonic speeds during the dogfight.

The transonic region of airflow around the bullet caused it to wobble in mid-flight.

The transonic flow of gas through the valve caused noise pollution.

The transonic drag rise is a major concern in aircraft design.

The transonic propulsion system is capable of supersonic speeds.

The transonic rocket was capable of reaching speeds of up to Mach 0.9.

The transonic airflow over the airplane's wings caused turbulence.

The test results showed that the transonic speeds had a significant impact on the performance of the airplane.

The transonic conditions caused turbulence around the object.

The design of the transonic aircraft requires extensive testing in wind tunnels.

The transonic flow of air creates shock waves that can affect aircraft performance.

The wind tunnel was used to study transonic aerodynamics.

The design of the plane's wings is crucial for minimizing drag and achieving transonic speeds.

The transonic aircraft is designed to fly at the edge of the sound barrier.

The noise created by transonic airflow can be a significant problem for supersonic aircraft.

The transonic speed range is between Mach 0.8 and 1.2.

The transonic flow over the bridge caused vibrations that needed to be corrected.

The design of the transonic wind tunnel allows researchers to study the aerodynamics of objects at high speeds.

A transonic aircraft generates a loud sonic boom when it exceeds the speed of sound.

The transonic flow around the supersonic jet's wings created shock waves.

The spacecraft had to withstand transonic turbulence during reentry.

The fighter jet's transonic speed produced a sonic boom.

The military uses transonic missiles to travel at high speeds.

Some fighter planes are capable of transonic speeds, allowing them to perform maneuvers that would be impossible at lower speeds.

The transonic speed of the wind caused a whistling sound as it passed through the window frame.

The transonic flight envelope of the aircraft was carefully designed to ensure safety during flight.

The aerodynamic performance of a transonic wing can be affected by the shape and angle of attack.

The engineers are studying the transonic effects on the helicopter's rotor blades.

The transonic flow around the race car's body affected its speed and handling.

The transonic flow around the missile can cause it to wobble.

The transonic frequency of the seismic wave caused the ground to shake.

The car's design was optimized for transonic speeds.