Which way is quicker to fly around the world?

The Impact of Jet Streams on Global Flight Times

Earth’s atmosphere exhibits a remarkable phenomenon known as jet streams, high-altitude winds that encircle the globe. These fast-moving currents, propelled by the planet’s rotation, have a profound impact on flight times around the world.

Prevailing Westerly Winds and Circumnavigation

Jet streams typically flow from west to east. This natural phenomenon generates prevailing westerly winds, which significantly reduce flight times for eastward journeys. For example, a flight from London to Tokyo will benefit from the tailwind provided by these winds, resulting in a shorter travel time.

Conversely, westward circumnavigations face headwinds, increasing flight durations. The Coriolis effect, a force that deflects moving objects in a rotating system, contributes to this effect. The Coriolis effect curves westward-bound flights south, leading them into unfavorable winds.

The Coriolis Effect and Global Wind Patterns

The Coriolis effect plays a crucial role in shaping global wind patterns. As the Earth rotates eastward, objects moving across its surface are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. This deflection causes winds to curve into the prevailing westerly patterns.

In the context of flight paths, the Coriolis effect dictates that westward-bound flights are pushed off course towards the south. This southward deflection brings them into contact with the slower, eastward-moving winds, increasing travel time.

Conclusion

Due to the prevailing westerly winds created by jet streams, east-to-west circumnavigations are generally faster than their westward counterparts. The Coriolis effect plays a significant role in this asymmetry, deflecting westward-bound flights into less favorable wind conditions. This understanding is crucial for airlines and travelers when planning long-haul flights around the globe.