If the Earth Would be Rotating Eastwardly at About 1,000 Miles Per Hour;

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RaceRunner

Well-known member
Oct 13, 2022
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#1
What is the minimum speed someone would have to fly in a westerly direction (the opposite direction of east) to get to their westerly destination if the earth is rotating eastwardly at about 1,000 miles per hour? :eek: o_O ;)
 
G

Gojira

Guest
#2
Any pilots here?
 

tourist

Senior Member
Mar 13, 2014
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#4
What is the minimum speed someone would have to fly in a westerly direction (the opposite direction of east) to get to their westerly destination if the earth is rotating eastwardly at about 1,000 miles per hour? :eek:o_O;)
At least 1 mile per hour. The aircraft is already traveling the speed of the earth's rotation.
 

RaceRunner

Well-known member
Oct 13, 2022
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#5
At least 1 mile per hour. The aircraft is already traveling the speed of the earth's rotation.
Then it would be like you are travelling 1,001 miles per hour since the earth beneath you is already moving 1,000 miles per hour in the opposite direction.
 

Melach

Well-known member
Mar 28, 2019
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#6
if the earth really is moving 1000 miles per hour. you could never fly to the opposite direction.

just think with yuor senses and logic. if its 20meters per second winds outside, its reaaally windy, you can barely be outside. now imagine 1000 miles per hour, yet here we are, no problem. it would make earthquakes look like pleasant surprises
 

Melach

Well-known member
Mar 28, 2019
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#7
At least 1 mile per hour. The aircraft is already traveling the speed of the earth's rotation.
how? the aircraft is in the air! does the air spin as well with 1000 miles speed? its probably part of the atmosphere
 

tourist

Senior Member
Mar 13, 2014
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#8
Then it would be like you are travelling 1,001 miles per hour since the earth beneath you is already moving 1,000 miles per hour in the opposite direction.
It is kind of complicated. I did a google on that question and it was a bit complex. At 1 MPH plane speed with 1000 MPH eastward rotation of the earth the plane is actually moving east 1 MPH slower than the rotation therefore gaining forward westward momentum. Or something like that. Unfortunately, I'm not an aeronautical engineer to offer a more coherent explanation.
 

tourist

Senior Member
Mar 13, 2014
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#9
how? the aircraft is in the air! does the air spin as well with 1000 miles speed? its probably part of the atmosphere
Yes, the air spins the same speed as the rotation at ground level but the air speed gradually changes the higher you go due to the longer area of the circumference of the earth. There are also jet streams to factor in the equation.
 

tourist

Senior Member
Mar 13, 2014
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#10
if the earth really is moving 1000 miles per hour. you could never fly to the opposite direction.

just think with yuor senses and logic. if its 20meters per second winds outside, its reaaally windy, you can barely be outside. now imagine 1000 miles per hour, yet here we are, no problem. it would make earthquakes look like pleasant surprises
And yet it happens every day for thousands of flights.
 

Dino246

Senior Member
Jun 30, 2015
25,472
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#11
I shouldn't have to explain this, but since certain persons don't understand basic physics, I will...

The atmosphere and water, and all fluids, and solids suspended in air or fluid such as balloons, planes, fish, etc., move along with the Earth's surface. Gravity holds them in sync with the Earth's rotation. Here's an illustration:

A car with driver and passenger is travelling at 100 kilometres per hour (~60 mph). Inside the car, the driver picks a penny from the console and lobs it over to the passenger. Does the penny suddenly travel "backwards" in the car at 100 Km/h? No. It continues to travel at the same speed as the car, and lands in the passenger's outstretched hand.

Similarly, a helicopter takes off vertically. The Earth doesn't suddenly "start" moving at 1000 mph beneath it, because the helicopter is moving at the same speed and direction as the Earth beneath. Unless there is a wind, the atmosphere is doing the same thing.

A plane takes off (in any direction) and gets to its cruising speed/altitude. Its airspeed relative to the ground is not 1000 mph plus or minus anything; it is simply the speed relative to the ground, which is almost entirely due to the propulsion of the airplane itself, not due to the ground moving beneath it.

People, this is rocket science, but it's the easy part. ;)
 
Mar 4, 2020
8,614
3,691
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#12
I shouldn't have to explain this, but since certain persons don't understand basic physics, I will...

The atmosphere and water, and all fluids, and solids suspended in air or fluid such as balloons, planes, fish, etc., move along with the Earth's surface. Gravity holds them in sync with the Earth's rotation. Here's an illustration:

A car with driver and passenger is travelling at 100 kilometres per hour (~60 mph). Inside the car, the driver picks a penny from the console and lobs it over to the passenger. Does the penny suddenly travel "backwards" in the car at 100 Km/h? No. It continues to travel at the same speed as the car, and lands in the passenger's outstretched hand.

Similarly, a helicopter takes off vertically. The Earth doesn't suddenly "start" moving at 1000 mph beneath it, because the helicopter is moving at the same speed and direction as the Earth beneath. Unless there is a wind, the atmosphere is doing the same thing.

A plane takes off (in any direction) and gets to its cruising speed/altitude. Its airspeed relative to the ground is not 1000 mph plus or minus anything; it is simply the speed relative to the ground, which is almost entirely due to the propulsion of the airplane itself, not due to the ground moving beneath it.

People, this is rocket science, but it's the easy part. ;)
Came here to say something to this effect, but you nailed it. Now people are going to draft wild theories to try to discredit it. Enjoy the ride. 🚀
 

RaceRunner

Well-known member
Oct 13, 2022
1,576
289
83
#13
I shouldn't have to explain this, but since certain persons don't understand basic physics, I will...

The atmosphere and water, and all fluids, and solids suspended in air or fluid such as balloons, planes, fish, etc., move along with the Earth's surface. Gravity holds them in sync with the Earth's rotation. Here's an illustration:

A car with driver and passenger is travelling at 100 kilometres per hour (~60 mph). Inside the car, the driver picks a penny from the console and lobs it over to the passenger. Does the penny suddenly travel "backwards" in the car at 100 Km/h? No. It continues to travel at the same speed as the car, and lands in the passenger's outstretched hand.

Similarly, a helicopter takes off vertically. The Earth doesn't suddenly "start" moving at 1000 mph beneath it, because the helicopter is moving at the same speed and direction as the Earth beneath. Unless there is a wind, the atmosphere is doing the same thing.

A plane takes off (in any direction) and gets to its cruising speed/altitude. Its airspeed relative to the ground is not 1000 mph plus or minus anything; it is simply the speed relative to the ground, which is almost entirely due to the propulsion of the airplane itself, not due to the ground moving beneath it.

People, this is rocket science, but it's the easy part. ;)
I said the plane in this thread scenario is moving in the opposite direction of the way the earth is spinning at 1,000 miles per hour.
 

Dino246

Senior Member
Jun 30, 2015
25,472
13,785
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#14
I said the plane in this thread scenario is moving in the opposite direction of the way the earth is spinning at 1,000 miles per hour.
It makes no difference.

Please, take a class in basic physics.
 

Magenta

Senior Member
Jul 3, 2015
60,174
29,475
113
#15
It makes no difference.

Please, take a class in basic physics.
You mean if I jump straight up in the air, I will not land a few feet, yards, or miles away from where I jumped? Oh noes!!! :eek:
 

RaceRunner

Well-known member
Oct 13, 2022
1,576
289
83
#18
It makes no difference.

Please, take a class in basic physics.
It is amazing you believe that the earth rotates east at 1,000 miles per hour, and yet you claim the effects of flying in the opposite direction would be exactly the same. o_O :poop:
 

RaceRunner

Well-known member
Oct 13, 2022
1,576
289
83
#20
Why do so many people believe it is possible for a pilot to fly west and to be able to land a plane on a ball spinning at 1,000 miles per hour when there is no proof something like this is ever possible? o_O:eek: