Sentences with Airfoil

The pilot adjusted the control surfaces to modify the airfoil's shape and improve the plane's maneuverability.

The automotive engineer integrated an innovative airfoil into the car's design, enhancing its stability at high speeds.

The professor lectured on the principles of fluid dynamics, emphasizing the crucial role of airfoils in optimizing lift for aircraft.

The glider pilot skillfully manipulated the airfoil to catch rising air currents and stay airborne for longer durations.

Engineers conducted wind tunnel tests to analyze the performance of various airfoil shapes for the new airplane model.

The architect incorporated an artistic airfoil-inspired sculpture into the building's facade, adding a unique aesthetic touch.

The sailing instructor demonstrated the importance of adjusting the sail's airfoil shape to catch the wind effectively and propel the boat forward.

The automotive enthusiast customized the rear spoiler, turning it into a functional airfoil to enhance the sports car's downforce on the racetrack.

The company invested in researching more efficient airfoil designs for wind turbine blades to increase power generation.

The ornithologist studied the unique airfoil shapes of different bird species to understand their flying capabilities.

The engineer explained how airfoils work to minimize drag and maximize lift, essential for efficient aircraft performance.

The wind tunnel test results indicated that the newly designed airfoil shape significantly improved the airplane's fuel efficiency.

The kite surfer adjusted the kite's airfoil shape to catch more wind and increase speed while riding the waves.

The avian biologist studied the adaptations of bird wings, focusing on their airfoil shapes and flight capabilities.

The kite designer carefully selected materials to ensure the airfoil's strength and flexibility, resulting in a high-performance flying experience.

The documentary explored the engineering challenges behind creating airfoils for supersonic aircraft, revealing the cutting-edge technology involved.

The mountain climber unfurled a parachute with an airfoil design, safely descending from the summit after a successful ascent.

The science fiction author envisioned a futuristic spacecraft with revolutionary airfoil technology, seamlessly navigating through the cosmos.

The wind tunnel experiment revealed that modifying the airfoil's curvature enhanced the drone's stability in varying wind conditions.

The aerospace engineer outlined the process of optimizing an airfoil's design to achieve the desired lift-to-drag ratio for a supersonic jet.

The aeronautical engineer designed a new airfoil profile to improve the efficiency of the aircraft's wings, reducing fuel consumption.

The pilot skillfully manipulated the control surfaces, adjusting the airfoil to counteract turbulence and maintain a smooth flight.

The structural engineer analyzed the impact of wind forces on a skyscraper's facade, incorporating airfoils to minimize stress and improve stability.

The automotive designer implemented retractable airfoils on the concept car, enhancing both aerodynamics and visual appeal.

The wind energy technician inspected the wind turbine blades, ensuring the airfoil profiles were well-maintained for optimal energy production.

The scientific conference featured presentations on bio-inspired airfoils, exploring how nature's designs influence advancements in engineering.

The competitive cyclist discussed the importance of aerodynamics, emphasizing how airfoil-shaped components on the bike enhance speed and efficiency.

The entrepreneur invested in a startup focused on developing innovative drone technology with swarming capabilities and adaptive airfoils.

The research paper analyzed the impact of airfoil design on the efficiency of small-scale wind turbines for residential use.

The pilot adjusted the aircraft's airfoil configuration to reduce drag and increase speed while flying at higher altitudes.

The aeronautical engineer conducted computational simulations to optimize the airfoil shape for better fuel efficiency in the aircraft.

The wind energy company invested in researching new materials to enhance the durability of airfoil-shaped turbine blades.

The scientist analyzed the lift and drag characteristics of different airfoil shapes in a wind tunnel experiment to improve aircraft design.

The urban planner integrated wind-responsive airfoils into the design of public spaces, promoting natural ventilation and sustainable city planning.

The engineer explained the importance of a balanced airfoil shape in reducing stall tendencies in aircraft wings during flight.