And yet, and yet! If you fly with the spin of the Earth, you still reach your destination! Also, we are not sealed tight, there is no barrier between the atmosphere and the vacuum of space. Rip the roof of that plane off and see what happens to you and your drink.
It's for this exact reason that spin is not measured in MPH/KPH but in RPM. The earth is spinning at a PAINFULLY slow 0. 000696 rpm . Do this example, put an ant on the hour hand of a clock. He's already rotating at twice the speed of the earth. Does he feel it? No.
Now, take the ant and put him on a merry go round spinning at the rate of 2 revolutions per 24 hours. The ant is now rotating about 100 times faster on an MPH basis than he was on the clock because of the increased radius of the disk. Does he feel any different? Is he being blown off due to the increase in forces? Is he struggling to crawl along? No.
Now find a disk that is even larger, the size of an adventure park ride and do the same thing. Now he's spinning 4 or 5 times faster than on the merry go round on an RPM basis. Does he feel different? No. You can do this out to infinity of size and the ant will not feel any different... because he's still going painfully slow.
That's why spin is measured in RPM's and not MPH/KPH. The two examples you gave are rotating at TENS OF THOUSANDS of times more RPM's than the earth. If you honestly believe the earth is flat, why do you need to dramatize to make your point? Facts and logic would be enough.
It's for this exact reason that spin is not measured in MPH/KPH but in RPM. The earth is spinning at a PAINFULLY slow 0. 000696 rpm . Do this example, put an ant on the hour hand of a clock. He's already rotating at twice the speed of the earth. Does he feel it? No.
Now, take the ant and put him on a merry go round spinning at the rate of 2 revolutions per 24 hours. The ant is now rotating about 100 times faster on an MPH basis than he was on the clock because of the increased radius of the disk. Does he feel any different? Is he being blown off due to the increase in forces? Is he struggling to crawl along? No.
Now find a disk that is even larger, the size of an adventure park ride and do the same thing. Now he's spinning 4 or 5 times faster than on the merry go round on an RPM basis. Does he feel different? No. You can do this out to infinity of size and the ant will not feel any different... because he's still going painfully slow.
That's why spin is measured in RPM's and not MPH/KPH. The two examples you gave are rotating at TENS OF THOUSANDS of times more RPM's than the earth. If you honestly believe the earth is flat, why do you need to dramatize to make your point? Facts and logic would be enough.
I redid the math for you, using 6 feet and 20 feet as the estimated diameters of the rides.
Yes , you fly with the spin of the earth, and with the spin of the atmosphere, and you reach your destination. That surprises you? Interesting. Does it also surprise you when you reach a destination when you drive a car that is moving with the spin of the earth?
Yes, there is no "barrier" between the vacuum of space and the atmosphere, there is also no friction. So there is literally nothing to slow the atmosphere down from matching the speed of the earth's rotation. And of course the plane is travelling 550 mph faster than the atmosphere, so a large amount of wind will result from the roof being torn off. The point was that you can be travelling at a good rate of speed, yet still being able to enjoy a drink. And when you are standing in your in your living room enjoying a drink, you are travelling at exactly the same speed as the atmosphere, just like the air inside the cabin of the airplane. So no 1000 mph wind, because the atmosphere is traveling at the same 1000 mph that you are, just like the air in the plane cabin is travelling along at the same 550 mph as the plane is.
I redid the math for you with estimated diameters of the merry go round at 6 feet and the ride at 20 feet.