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Today there was a seminar regarding modern air crafts held in my school. At the starting of the lecture, we were asked a question which I found quite intriguing.
"Why does a helicopter or a fixed wing aircraft or anything stationary in mid air need to move to get to a certain place? Why cant it just stay mid air and wait for the destination to arrive to itself?"
(We were asked to answer it at the end of the lecture. Throughout the lecture I was thinking about the answer. I know that on ground due to friction, the relative velocity between the earth and us is zero hence we don't observe any such effect. Also according to what I can imagine, at lower altitudes, the air closer to earth would also be in motion and that might be the reason due to which the helicopter stays in one place with respect to the ground.)
But what about high altitudes where the air density is low. I know my reasoning might be incorrect. I looked through the net but did not find a satisfying answer.
(Edited) Add-ons to make the question clear (1) Initially when an airplane is on the ground, it moves with the Earth.
(2) Assume this airplane takes off in a direction opposite to the Earth's direction of rotation. There will be a point, when the plane acquires equal speed of the Earth but in opposite direction.
(3) So as viewed from the space, the airplane would appear stationary.
(4) Assume that the engine of the airplane is self sufficient and it does not require external air as oxidizer , and that the viscous effects are neglected (though theoretically , without viscosity, the plane would not fly, but this is just an assumption) .
(5) Now in such a case where the plane is mid air and is stationary when viewed from space, would my proposition hold true?