"Aerodynamic" Example Sentences
1. The sleek and aerodynamic design of the sports car allowed it to cut through the wind with ease.
2. The Olympic swimmer's aerodynamic technique helped him glide effortlessly through the water.
3. Engineers spent months designing the aerodynamic profile of the airplane to maximize fuel efficiency.
4. The bicycle's aerodynamic frame made it the perfect choice for racing.
5. The new helmet design had an improved aerodynamic shape to reduce wind drag.
6. The rocket's aerodynamic fins were critical to maintaining its stability during flight.
7. The new running shoe's aerodynamic shape helped increase the runner's speed.
8. The athlete's aerodynamic swimsuit was designed to reduce water resistance and improve performance.
9. The futuristic car design relied heavily on aerodynamic principles to maximize speed and efficiency.
10. The wind tunnel tests demonstrated the aerodynamic superiority of the new race car.
11. The cross-country skier's aerodynamic stance allowed him to glide quickly over the snow.
12. The bird's sleek and aerodynamic wings allowed it to fly at incredible speeds.
13. The aerodynamic properties of the airplane's design were crucial to its ability to stay aloft.
14. The cyclist's aerodynamic position on the bike helped her beat her competition.
15. The bullet train's aerodynamic nosecone helped reduce air resistance and increase speed.
16. The Formula One team spent millions of dollars improving the aerodynamic performance of their cars.
17. The swimmer's aerodynamic goggles provided a clear view of the pool during the race.
18. The new golf balls had an improved aerodynamic design to enhance their performance.
19. The airplane's aerodynamic shape allowed it to soar gracefully through the clouds.
20. The aerospace engineer's expertise in aerodynamics was instrumental in the design of the spacecraft.
21. The high-speed train was designed with aerodynamic principles in mind to reduce drag.
22. The aerodynamic curves of the sailboat allowed it to catch the wind and sail smoothly across the water.
23. The athlete's aerodynamic bodysuit was designed to reduce air resistance and increase speed.
24. The bobsled's aerodynamic shape made it one of the fastest in the world.
25. The race car driver relied on his aerodynamic skills to maneuver through the tight turns of the track.
26. The fighter jet's aerodynamic design allowed it to perform incredible maneuvers in the air.
27. The swimmer's aerodynamic cap was designed to reduce drag and increase speed.
28. The spacecraft's aerodynamic heat shield protected it during reentry into the Earth's atmosphere.
29. The car's aerodynamic spoiler helped improve its stability at high speeds.
30. The cyclist's aerodynamic wheels helped her slice through the air during the race.
Common Phases
1. The
aerodynamic design of the car allowed it to cut through the air effortlessly;
2. The engineers used computational fluid dynamics software to simulate and optimize the
aerodynamics of the airplane;
3. The cyclist's speed increased significantly due to the
aerodynamic shape of the helmet;
4. The race car driver made several adjustments to the car's
aerodynamics in order to gain more downforce;
5. The shape of the wings on the aircraft played a crucial role in its
aerodynamic performance.