Birds' wings, in essence, are highly evolved, natural examples of an aerofoil.
Changes to the aerofoil's geometry can significantly impact fuel efficiency.
Computational fluid dynamics can simulate airflow around an aerofoil with great accuracy.
Even a seemingly minor imperfection on the aerofoil's surface can disrupt airflow.
High-performance gliders utilize specially designed aerofoil sections for optimal lift.
Modern jet aircraft utilize advanced aerofoil designs for maximum performance.
The advanced aerofoil design significantly reduced fuel consumption on long flights.
The aerodynamic forces acting on the aerofoil are what allow an airplane to fly.
The aerofoil section used in a kite influences its stability and maneuverability.
The aerofoil section was chosen based on its performance at low speeds.
The aerofoil's camber influences its lift characteristics.
The aerofoil's chord length is an important parameter in its design.
The aerofoil's design was a closely guarded secret.
The aerofoil's design was a collaborative effort between engineers and scientists.
The aerofoil's design was a compromise between performance and cost.
The aerofoil's design was a masterpiece of aerodynamic engineering.
The aerofoil's design was a triumph of engineering.
The aerofoil's design was based on the principles of fluid dynamics.
The aerofoil's design was inspired by nature, specifically the wings of seabirds.
The aerofoil's design was patented to protect its intellectual property.
The aerofoil's efficiency is measured by its lift-to-drag ratio.
The aerofoil's lift is generated by a pressure difference between its upper and lower surfaces.
The aerofoil's performance was a key factor in the aircraft's success.
The aerofoil's performance was a major factor in the aircraft's speed.
The aerofoil's performance was a source of pride for the design team.
The aerofoil's performance was compared to that of other designs.
The aerofoil's performance was critical to the aircraft's safety.
The aerofoil's performance was crucial to the success of the mission.
The aerofoil's performance was evaluated under various weather conditions.
The aerofoil's performance was measured in a controlled environment.
The aerofoil's shape was a symbol of innovation and progress.
The aerofoil's shape was a testament to human ingenuity.
The aerofoil's shape was chosen to minimize noise.
The aerofoil's shape was constantly being refined and improved.
The aerofoil's shape was determined by a complex set of equations.
The aerofoil's shape was influenced by the intended use of the aircraft.
The aerofoil's shape was modified to improve its handling characteristics.
The aerofoil's shape was optimized for a specific flight profile.
The aerofoil's surface finish can significantly impact its aerodynamic performance.
The aerofoil's thickness affects its strength and weight.
The aircraft's performance suffered because of damage to the aerofoil.
The angle of incidence of the aerofoil relative to the airflow is critical.
The book explored the science behind aerofoil design.
The company specialized in the design and manufacture of aerofoils.
The concept of an aerofoil is also applied in some types of high-speed boat design.
The conference featured presentations on the latest aerofoil research.
The damaged aerofoil necessitated an emergency landing.
The designer chose a symmetrical aerofoil for its simplicity and ease of manufacture.
The designer refined the aerofoil shape to minimize turbulence.
The designers used computer simulations to optimize the aerofoil's shape.
The development of new aerofoil technologies is essential for advancing aviation.
The development of the supercritical aerofoil revolutionized air travel by reducing drag at high speeds.
The documentary showcased the development of a revolutionary aerofoil.
The efficiency of the aircraft wing hinges on the precise curvature of its aerofoil.
The engineers meticulously analyzed the airflow around the aerofoil.
The engineers used advanced software to optimize the aerofoil's design.
The experiment aimed to determine the optimal aerofoil for a specific drone application.
The future of aviation depended on the development of better aerofoils.
The goal was to create an aerofoil that would generate more lift with less drag.
The government funded research into advanced aerofoil technologies.
The helicopter's rotor blades each incorporate a carefully designed aerofoil profile.
The industry was constantly seeking new and improved aerofoil designs.
The innovative aerofoil enabled the aircraft to achieve higher altitudes.
The internal structure of an aerofoil can be complex, often featuring ribs and spars.
The journal published articles on new aerofoil technologies.
The kite surfer skillfully manipulated the aerofoil of their kite to catch the wind.
The leading edge of the aerofoil is often reinforced to withstand impact.
The lift coefficient of the aerofoil indicates its effectiveness at generating lift.
The lightweight aerofoil enabled increased payload capacity.
The market for aerofoils was growing rapidly.
The museum displayed a replica of the original Wright brothers' aerofoil.
The online course covered the fundamentals of aerofoil design.
The passengers trusted the aerofoil to keep the aircraft in the air.
The pilot noticed icing on the aerofoil, which reduced lift.
The pilots relied on the aerofoil to provide lift and control.
The principles of aerofoil design can even be applied to the blades of wind turbines.
The professor lectured on the history and evolution of the aerofoil.
The remote-controlled plane soared effortlessly, thanks to its efficient aerofoil.
The research team focused on improving the aerofoil's stall characteristics.
The researchers investigated the effects of turbulence on the aerofoil's performance.
The scientists developed a new coating to reduce drag on the aerofoil.
The selection of the appropriate aerofoil is a critical step in aircraft design.
The shape of the aerofoil determines the lift and drag characteristics of the wing.
The skin friction on the aerofoil surface contributes to drag.
The stall speed of an aircraft is directly related to the aerofoil's angle of attack.
The structural integrity of the aerofoil is vital for flight safety.
The student investigated the effect of different aerofoil shapes on drag.
The students built a scale model of the aerofoil for testing.
The study of aerofoil design is a constantly evolving field.
The team experimented with different materials to improve the aerofoil's strength.
The technicians inspected the aerofoil for any signs of damage.
The textbook provided a detailed explanation of aerofoil theory.
The trailing edge of the aerofoil plays a crucial role in controlling airflow separation.
The university offered a degree program in aerofoil engineering.
The website provided information on different types of aerofoils.
The workshop taught participants how to build their own aerofoil models.
The Wright brothers meticulously studied the aerofoil to achieve sustained flight.
They observed the subtle changes in pressure distribution across the aerofoil's surface.
Understanding the physics of an aerofoil is crucial for any aspiring aeronautical engineer.
Wind tunnel testing is essential for validating the performance of a new aerofoil design.