I noticed for a particular round-trip that the portion from the east coast to the west was scheduled to take over an hour longer than the return trip. I initially thought this was a mistake due to time zone or daylight-savings time oddities, but that does not appear to be the case.

I know there are a number of variables that can affect flight time (type of jet, winds, even potentially rotation of the Earth itself), so I was wondering if this sort of thing is typical. This particular instance happens to use the same model plane for both trips and is non-stop, so most factors seem to be controlled for aside from east-west vs. west-east. Is the longer flight a good candidate to arrive early (or is the shorter flight a good candidate to arrive late)?

Edit: I recognize from this question that winds are likely to be the dominant factor, but that still does not answer my question. I'm specifically asking about the USA and I don't know what sorts of winds are typical (or whether or not it depends largely on southwest vs. northwest, etc.).

  • possible duplicate of Does the rotation of the earth affect the travel time from Europe to Australia? Commented Mar 1, 2012 at 17:35
  • @KateGregory I read that question and still don't have an answer to my question, therefore it cannot be an exact duplicate. I recognize that winds are a major factor (I suspected this when I asked), but I don't know what sorts of winds are typical when traveling between coasts in the USA (note that "USA" tag). Commented Mar 1, 2012 at 17:39
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    I'd like to see the two questions combined. Especially since the answer is the same for "Australia to Europe" as it is for "from one side of North America to the other" - and would also apply to "from North America to Europe" etc etc. Commented Mar 1, 2012 at 22:15
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    @KateGregory I don't think it makes sense to combine the two questions. East-west travel in temperate latitudes is dominated by the jet stream; this is what this question is fundamentally about. A question on NA<->Europe would be a duplicate of this one, but not a question that involves north-south travel or subtropical travel, where the dominant winds are very different. Commented Mar 1, 2012 at 22:19

3 Answers 3


As Mark Mayo's answer shows, wind is the primary determinant of the difference in speed.

The jet stream is a prevailing wind that typically is going somewhere over the United States, and runs typically from the West Coast to the East Coast. As such, there is a prevailing headwind (-mph) going east to west and a prevailing tailwind (+mph) going west to east.

The path of the jet stream is highly variable (its usually shown on weather maps, because it is the primary determinant of weather), but can be usually thought of as a U shaped curve that on average goes from say, Oregon, south to Texas, and back up to say, Pennsylvania. How deep it goes, and how far north or south it is on any given day, can be off by several states. That's also why flight times can vary so much from the printed value.


Much like others have said, my answer on another question serves to explain this.

However, to clarify for you, in the US you're looking for prevalent jetstreams to show the cause.

enter image description here

The prevailing jetstreams in the US flow from west to east in the upper portion of the troposphere.

You can also see a map here of all the prevailing jetstreams around the world.

The Jet Stream affecting the U.S. moves up and down across the continent. When it is farther north, say in Canada, the weather to its south tends to be mild or at least less cold. When the stream, which meanders, swings south until well within the U.S., especially in winter,very cold, often harsh weather prevails at the surface on the northern side. This diagram shows two typical positions at the height of Summer and of Winter.

Also note this LIVE amazing display of the prevailing winds in the USA, which affect all this.

And as you can see, the prevailing jet stream is from west to east.


Because of the way the earth turns (the sun "rises" in the east), there are prevailing winds going from west to east over most of the earth.

On a trip from the East coast to the west coast of the United States, the time difference between a tail wind (flying west to east) and a typical headwind (flying east to west) is about an hour.

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    This is not true. Prevailing wind direction depends on your latitude (specifically, which side of the subtropical ridge you're on.) For instance, prevailing winds in the tropics are usually East to West. It's actually caused by global heating patterns, which cause persistent high and low pressure systems in certain areas.
    – reirab
    Commented Mar 17, 2014 at 16:31
  • @reirab: I said that "prevailing winds go from west to east over MOST of the earth." Even if your exception is true for the subtropics, most of the U.S. (except for Hawaii and Florida) doesn't qualify.
    – Tom Au
    Commented Mar 19, 2014 at 15:39
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    I meant that the part about it being due to the rotation of the Earth isn't true, not the part about it being West to East over most of the Earth. It's not due to the rotation of the Earth (at least not directly,) but rather due to global climate patterns (specifically, it's due primarily to there being more solar heating near the equator than near the poles, due to sun angle.)
    – reirab
    Commented Mar 19, 2014 at 19:32

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