If you do a very fine calculation, you will find some differences according to the direction. That is, it arrives a little earlier or later. But this is so little that it is not taken into account. Because it will take 3 months from the time required to understand the apparent change or time difference. So normally time is taken less or more. You may be saying that when the plane leaves the earth and ascends, the earth will arrive before it can reach space due to the ecliptic motion. I would like to say that if the plane goes west then it will take less time , and if it goes east it will take more time because the earth is rotating from west to east on its axis. Now let's get to the real thing , but it doesn't really take much time because the plane flies in the sky at the same speed as the earth. Just as an airplane is stationary and rotates with the earth (which is stationary with the earth , so it rotates with the earth). Therefore , even if the plane is stationary in the sky, it is in sync with the atmosphere and the earth. As a result, the aircraft will need its own speed to move, so the time will be the same. But here the rocket is different. Because the rocket can rise above the atmosphere and go to zero and be free from the earth's relativity.