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How Planes Fly Welcome to Unpacked, where we demystify hot topics in the airline industry! In this edition we take a 30,000 foot look at the physics behind.

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Presentation on theme: "How Planes Fly Welcome to Unpacked, where we demystify hot topics in the airline industry! In this edition we take a 30,000 foot look at the physics behind."— Presentation transcript:

1 How Planes Fly Welcome to Unpacked, where we demystify hot topics in the airline industry! In this edition we take a 30,000 foot look at the physics behind how planes fly. Without understanding anything about the mechanics of planes and air travel, it's pretty incredible to think about how a heavy machine (the plane) can be loaded with thousands of pounds (people and luggage) can take to the skies and climb more than five miles up. Perhaps even more unbelievable is that the plane is flying hundreds of miles an hour and yet you feel like you're hardly moving. How do we do it? It's not magic. It's physics!

2 How Planes Fly: Lift Have you ever held your hand out of the window while driving down the street? If you curve your hand slightly, the air seems to lift your hand up! You can try it with a fan….. Airplanes work the same way.

3 How Planes Fly: Lift Air travels further and faster over the wing, creating a low pressure area, which “lifts” the wing up. An airplane’s wings are specially designed to produce the most “lift.” Lift Lift is produced by a lower pressure created on the upper surface of an airplane's wing compared to the pressure on the wing's lower surface, causing the wing to be "lifted" upward. The special shape of the airplane wing (airfoil) is designed so that air flowing over it will have to travel a greater distance faster, resulting in a lower pressure area thus lifting the wing upward. Lift is that force which opposes the force of gravity (or weight).

4 How Planes Fly: Drag The nose of the plane is designed to reduce “drag,” or the resistance of the air as the plane moves through the sky. Imagine if the nose of the plane was a block shape instead of a cone – it would put up a lot more resistance! (And it would need a LOT more thrust to push forward.) The nose of the plane is designed to reduce “drag,” or the resistance of the air as the plane moves through the sky. Imagine if the nose of the plane was a block shape instead of a cone – it would put up a lot more resistance! (And it would need a LOT more thrust to push forward.)

5 How Planes Fly: Thrust Air molecules get sucked into the engine, where they are compressed. Fuel is injected and fired, causing a controlled explosion. The explosion is directed out the back of the engine, producing thrust. Newton’s third law of motion in action: for every action, there is an equal and opposite reaction. You may remember from those long-ago science classes that thrust and gravity were derivative theories of Sir Isaac Newton, one of the most influential scientists of all time (if high school is fuzzy in your memory, you may at least recall the story of the apple falling from the tree, Newton's alleged inspiration for the formulation of his theories on the forces of gravity.

6 How Planes Fly: Gravity
When you jump up into the air, you don’t stay up – you come back down. That’s the force of gravity working – pulling you back to Earth. Airplanes operate the same way. But the engines and aerodynamics work together to counteract gravity, and keep the plane in the air. Did you know: Our Airbus A320 holds 150 customers, 2 Pilots and 3 Inflight crewmembers! The A320 can fly 2,700 miles and weighs about 170,000 lbs. The highest altitude the airplane can go to is 39,100 feet! The world’s largest airplane, the Airbus A380, weighs 560 tons - that's almost seven Airbus A320s!

7 How planes fly is not rocket science
How planes fly is not rocket science! OK, it's actually closer to rocket science than not. Engineers design aircraft that are efficient and that work with the the basic laws of physics to bring us the fastest mode of transportation in existence. Let’s go fly!


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