37 Example Sentences Showcasing the Meaning of 'Airfoil'
The engineer explained how the airplane's airfoil shape helps it achieve lift during flight.
The bird's wings act as a natural airfoil, allowing it to soar effortlessly in the sky.
The racing car's spoiler was strategically designed as an airfoil to enhance its speed and stability on the track.
The professor discussed the aerodynamics of airfoils in aircraft design during the aerospace engineering lecture.
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 kite enthusiast explained how different airfoil designs affect a kite's stability and flight performance.
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 hang glider adjusted the angle of the airfoil to control altitude and direction while gliding through the air.
The engineer explained how airfoils work to minimize drag and maximize lift, essential for efficient aircraft performance.
The professor demonstrated the principles of lift and drag using a model airfoil in the aerodynamics laboratory.
The wind tunnel test results indicated that the newly designed airfoil shape significantly improved the airplane's fuel efficiency.
The lecturer illustrated the concept of Bernoulli's principle using the example of an airfoil generating lift.
The sailboat's sail functions similarly to an airfoil, harnessing wind energy to propel the vessel forward across the water.
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 model aircraft enthusiast carefully crafted a custom airfoil for their remote-controlled plane to improve its maneuverability.
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 textbook explained how the streamlined shape of a fish's body acts as a natural airfoil, aiding its swift movement through water.
The aeronautical engineer designed a new airfoil profile to improve the efficiency of the aircraft's wings, reducing fuel consumption.
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 physics class experimented with different shapes to create their own miniature airfoils, testing their lift and drag properties.
The engineer explained how insects' wings serve as natural airfoils, enabling them to maneuver swiftly through the air.
The aeronautical engineer conducted computational simulations to optimize the airfoil shape for better fuel efficiency in the aircraft.
The sailing instructor explained how adjusting the sail's angle imitates an airfoil, allowing the sailboat to catch the wind effectively.
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 engineer explained the importance of a balanced airfoil shape in reducing stall tendencies in aircraft wings during flight.
The glider pilot skillfully adjusted the airfoil to exploit thermal currents, allowing for sustained soaring without the use of an engine.
The avian researcher examined the anatomical adaptations in birds' wings that contribute to their diverse airfoil shapes and flight capabilities.
The aerospace engineer refined the airfoil design to minimize aerodynamic inefficiencies, ensuring optimal performance for the new aircraft model.
The kite designer experimented with various airfoil configurations to create kites that could perform stunts with precision and agility.