Today’s Wonder of the Day was inspired by Ryan from , AZ. Ryan Wonders, “How do airplanes fly” Thanks for WONDERing with us, Ryan!

What do you do when you want to get somewhere quickly? Chances are you jump on your skateboard or bicycle. If you're really in a hurry, you might ask an older friend or family member to hop in the car and drive you.

Wouldn't it be nice, though, if you could just leap into the air and take flight? How much easier would life be if you could simply launch yourself skyward and fly over to your best friend's house? Unfortunately, without wings, gravity can't be overcome by mere humans.

Isn't it strange that a human being weighing less than a couple hundred pounds can't take flight, but a huge metal airplane weighing thousands upon thousands of pounds can race down a runway and sail off into the sky? Exactly what is behind the science of flight?

Although technology has grown by leaps and bounds since the days of Orville and Wilbur Wright, the science behind flight has stayed the same. For an airplane to take flight, two special forces are required: thrust and lift.

Thrust is forward motion, and in an airplane it's provided by either a propeller or a jet engine. Sufficient thrust must be generated to overcome the opposing force of drag, which results from the friction that is created by the airplane moving through the air.

To better understand the force of drag, you can conduct a simple experiment the next time you're riding in a car. Stick your hand out the window to feel the air rushing past. When you put your hand up like you're giving your friend a high five, you can feel a significant amount of force from the air pushing against your hand. That's drag.

If you put your hand palm down, though, the force of drag is greatly reduced. That's why airplanes are shaped like they are, so that their form is as aerodynamic as possible in order to reduce drag and maximize the amount of thrust provided by the propellers or jet engines. For an airplane to take flight, thrust must be equal to or greater than drag.

The other key force necessary for flight is lift. Lift is created by the special shape of an airplane's wing, which is also known as an airfoil. Airplane wings are shaped and tilted in such a way that, when air moves across the wings, an upward force is created on the wings. The force of lift will lift an airplane into the sky when it becomes greater than the opposing force of gravity pulling the airplane toward the ground.

Experts still argue about exactly how the force of lift is created. Some believe that lift is explained by Bernoulli's principle (named after Swiss mathematician and scientist Daniel Bernoulli), which holds that the faster-moving air above the wing has lower pressure than the slower-moving air beneath the wing. Thus, the greater pressure below the wing pushes the airplane upward, creating lift.

Others believe that lift can be explained by Newton's laws. This explanation holds that the air moving over the wing gets deflected downward by the wing's angle. Since Newton's laws state that this reaction must be met by an equal and opposite reaction, lift is thus created on the underside of the wing.

Regardless of which theory best explains lift, it's clear that lift must exceed gravity for an airplane to leave the ground. This means that an airplane will have to generate more lift the heavier it is. Likewise, the lighter an airplane is, the less lift that is required.

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