Amazing Physics of Helicopter Hovering!

How does a helicopter produce enough thrust to hover?

During a rescue operation, a 5200-kg helicopter hovers above a fixed point. The helicopter blades send air downward with a speed of 68 m/s. What mass of air must pass through the blades every second to produce enough thrust for the helicopter to hover?

The Physics Behind Helicopter Hovering

To understand how a helicopter produces enough thrust to hover, we need to delve into the concept of momentum in physics. When a helicopter hovers, it needs to generate enough thrust to counteract its weight.

The thrust produced by a helicopter is achieved by expelling air downward through its blades. This action changes the momentum of the air being expelled, resulting in an upward force that keeps the helicopter suspended in the air.

In the case of the 5200-kg helicopter mentioned in the data, approximately 750 kg of air must pass through the blades every second to produce enough thrust for the helicopter to hover when the blades send air downward at 68 m/s.

The Role of Momentum and Thrust in Helicopter Hovering

When a helicopter hovers, it must generate thrust equal to its weight in order to stay aloft. This thrust is produced by expelling air downward through the helicopter blades, creating a momentum change in the air that results in an upward force.

The amount of air mass that needs to pass through the blades every second is crucial in determining the helicopter's ability to hover effectively. In the case of the 5200-kg helicopter mentioned, approximately 750 kg of air must be expelled downward at a speed of 68 m/s to maintain a stable hover.

Understanding the physics behind helicopter hovering not only provides insights into the mechanics of flight but also highlights the intricate relationship between momentum, thrust, and weight in achieving equilibrium in mid-air.

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