2007-06-16 21:00:31 · 8 answers · asked by komm0de 1 in Science & Mathematics ➔ Astronomy & Space
No, you won't.
You are I assume referring to the fact that the Earth rotates and are suggesting that by hovering it will rotate beneath you.
However, you will still rotate with it even though you are hovering because you are still in it's gravitational field and well and truly within it's atmosphere.
Since the Earth rotates at around 1000mph you could prove this quite simply by throwing a ball into the air.
Even the fairly modest height of say 20 feet would be enough for the Earth rotate a measurable distance under the ball and you would be able to observe this.
Try it...it doesn't happen. I'm amazed that people here actually think you would.
2007-06-16 21:18:46 · answer #1 · answered by Angela D 6 · 1⤊ 0⤋
Depends on what do you mean by straight up, and different spot.
If you just hover, you'll be struck by wind which would change your course somewhat, and make your movement with respect to the rotation of the earth somewhat erratic.
Given that you hover upwards, another question is how far straight up? If you mean 5 meters, then the answer would yes, but only because you can't necessarily land on the exact same spot you took off from.
But if you hover way up (a few kilometers, at least), yes you would end up a distance from where you took off.
2007-06-16 21:10:56 · answer #2 · answered by Katylar 2 · 0⤊ 0⤋
If you hovered at one foot or 10,000 ft.you would stay over the same spot and land where you took off.
The length of time you hovered would make no difference.
2007-06-17 02:12:51 · answer #3 · answered by Billy Butthead 7 · 0⤊ 0⤋
IF the helicopter hovered on an identical factor (inertial axis), the factor of land the helicopter may well be over might replace with the aid of fact the Earth circled below it. even with the undeniable fact that, the complicating component is that the air is rotating around the Earth on an identical velocity with the aid of fact the Earth. it would take various thrust to maintain that helicopter in that exact same spot relative to an inertial axis. on the equator, the air is traveling over a one thousand mph with the aid of fact that's rotating suitable alongside with the Earth. very few jets have effectual adequate engines to conquer that style of airflow. If the helicopter 'hovered' quite of extra a effectual horizontal thrust, the air might carry the helicopter around on an identical velocity with the aid of fact the Earth. a greater effective occasion of what you would be attempting to visualise may well be a satellite tv for pc that orbited from pole to pole to pole (the orbit is perpendicular to the Equator). Being severe adequate that there is little, if any, environment, the orbit's airplane may well be unchanging at the same time as the Earth might rotate decrease than it. If it took ninety minutes to end an orbit and the satellite tv for pc started on the best meridian (0 stages longitude), with the aid of time the satellite tv for pc reached the equator returned it would be over 22.5 stages longitude (the Earth rotates 15 stages in step with hour).
2016-12-13 05:11:33 · answer #4 · answered by Anonymous · 0⤊ 0⤋
Don't know- remember the Earth rotates incredibly quicly, but so does everything on it, so you would have that momentum when you took off. You might slow down a little but I reckon you woudl more or less wind up in the same spot as where you landed.
2007-06-16 21:09:50 · answer #5 · answered by Bob B 7 · 0⤊ 2⤋
you will rotate along with the rotation of the earth due to its gravitational force which is called hovering hence you will land at the same point
2007-06-16 21:09:41 · answer #6 · answered by balu 2 · 0⤊ 1⤋
helicopters are prone to wind drift so you could be a half mile from where you started without compensating
2007-06-16 21:13:27 · answer #7 · answered by sparks9653 6 · 0⤊ 0⤋
no, because as earth revolves helicopter also do so as it is insidiae the earth.
2007-06-16 21:09:46 · answer #8 · answered by Ravi 3 · 0⤊ 0⤋