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How Do Airplanes Get Off the Ground
Students construct various types of paper airplanes, exploring action and reaction forces by conducting a paper airplane rodeo. Students then discuss how Newton's Third Law of Motion affected their planes.
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Using 3-D Models for Code Validation with FoilSim
Students use FoilSim to complete the activity to create tables of data sets comparing the lift values for a 3-D model of a symmetrical wing section to the values predicted by the FoilSim software.
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Mankind's Fascination With Flight
Students discuss, examine and appreciate the science and inspiration of flight. They study the terms and mechanics of powered flight and demonstrate that the heating of air makes it lighter and therefore rise. They discuss and...
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Bernoulli's Principle
Young scholars explore Bernoulli's principle, how it is related to flight, and the effect of lift, thrust, and drag on flight. They design and develop an experiment that tests for distance traveled by their paper airplane, and record...
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Testing and Refining Aircraft Design
Young scholars design and make a flying device. They work in small groups to brainstorm ideas for the design of their device. They choose an idea or combination of ideas to use for their design and create a sketch of their design. The...
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How Airplanes Fly?
Fifth graders explore drag, thrust, lift and weight. In this airplane lesson, 5th graders define the forces that effect airplanes and design a model airplane. Students compare their models for the furthest flight.
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How do engineless planes stay aloft?
Fifth graders explore how a plane can stay aloft. For this engineless airplane flying lesson, 5th graders experiment to find how the design of a plane and Bernoulli's principle keep planes in the air. Student's create a plane and answer...
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Forces in Fluids
For this forces in fluids worksheet, students identify the principles behind the forces acting upon objects in fluids that make them float, lift and spray.
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The Physics of Flight
Students discuss how the invention of flight changed the way people live today. In groups, they compare and contrast the differences between weight, lift, thrust and drag. Using these principles, they create a glider and propeller with...
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Aviation, Aeronautics and Aerodynamics
Learners investigate the physics of flight through various experiments. In this physics lesson, students construct different flying objects. They explain the dynamics that make these object fly.
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Flight Home
Students experiment to investigate the role in fixed-wing flight. They watch as air and water flow around surfaces to examine the dynamics of airflow around an aircraft wing.
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Paperplane Flying Circus
Learners create paper airplanes. They compare and contrast the airplanes created in class and test them out. They adjust their airplanes until they all fly. They discuss the forces that allow flight to occur.
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Physics of Flight
In this flight worksheet, students will review the physics behind flight including lift, acceleration, and thrust. Students will also understand the Bernoulli effect. This worksheet has 6 true or false, 6 short answer, and 8 matching...
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100 Years of Flight
Students investigate Bernoulli's principle of air pressure and how it
relates to the lift of an airplane. Students identify various Aeronautical vocabulary terms. Students construct a paper glider and experiment with the control surfaces...
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How Do Airplanes Fly?
Students study the concepts of air pressure, air speed, and gravity as it relates to airplanes. In this how do airplanes fly lesson plan, students study the basics of flight. Then reinforce their fine motor skills by creating airplane...
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Untitled Document Aerospace Team Online:
Students explain the historical significance of use of the scientific method in developing the first airplane and appreciate the process involved in developing a new technology.
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Aerodynamics
Students discover the basic principles of aerodynamics, including the roles and identity of natural forces involved. They examine how the force of gravity is overcome by the curved shape of an airplane wing and air pressure.
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How Things Fly
Learners explain basic principles of aeronautics such as gravity and lift. In this How Things Fly lesson, students visit the interactive, hands-on How Things Fly gallery at the Smithsonian. Learners perform three experiments that...
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Pitch, Yaw & Roll
Students practice the concepts of pitch, yaw and roll. They practice pitch, yaw, roll in a make-believe airplane simulator. Students explore about air, forces, and movement of flight. They read for themselves about air; lift, dragweight,...
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Sailing Through Bernoulli
Students participate in a class discussion about Bernoulli's principle while looking at cross-sections of an airplane wing, and discussing the sail on a sailboat and the spoiler on a race car.
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Wright Flight
Students explain and explain the interactive relationships between forces of lift and gravity, thrust and drag, as they apply to airplanes in motion. They know that Orville and Wilbur Wright flew the first airplane based on these...
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Velocity Effects Problem Set
Learners, after reading an explanation on lift from a NASA Web-based textbook and an explanation on the FoilSim software package given below, use FoilSim to evaluate the relationship between velocity and lift.
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Altitude and Flight Forces
Learners use the World Wide Web to access and use FoilSim. They also use the World Wide Web to access the NASA Glenn Web site for information relative to the factors involved with the flight of an airplane.
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Wing Shapes and Areas
Students, after reading the explanation given below, use FoilSim to determine the weight of the aircraft that can be lifted by a pair of wings of each type. They also design a unique platform of a wing to lift a plane weighing 11500 pounds.