Why do hurricanes rotate counter-clockwise?

AI Thread Summary
Hurricanes in the northern hemisphere rotate counter-clockwise due to the differential velocities of the surrounding atmosphere, not solely because of the Coriolis effect. While the Coriolis effect does influence the deflection of moving objects, it does not directly cause the counter-clockwise rotation of hurricanes. Instead, winds are carried differently based on their latitude, with faster winds near the equator contributing to this rotation. The discussion clarifies that without the surrounding atmosphere, hurricanes would rotate clockwise, contradicting common assumptions. Ultimately, the interplay of atmospheric dynamics and the Coriolis effect is essential to understanding hurricane behavior.
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In the northern hemisphere, they rotate counter-clockwise. In the southern hemisphere, they rotate clockwise. This is often attributed to the Coriolis effect, an apparent deflection of moving objects in a rotating frame of reference. While this is true for deflected artillery shells, it is NOT the reason for hurricane rotating COUNTER-CLOCKWISE. In fact, they should rotate CLOCKWISE in the same way artillery shells are deflected in the ABSENCE of the surrounding atmosphere. But it is the DIFFERENTIAL VELOCITIES of the surrounding atmosphere that CARRIES the hurricane winds in their direction, with the atmosphere moving FASTER nearer to the equator and SLOWER nearer to the pole in the west to east direction.
So in the northern hemisphere, as winds blow toward the center of the hurricane, the wind is carried (west-to-east speed sped up) westward when traveling south and carried (west-to-east speed slowed down) eastward when traveling north.
If there was no surrounding atmosphere to carry the winds, the opposite would happen. The hurricane would appear to rotate CLOCKWISE as a result of viewing it in a non-inertial frame and of the pseudo force known as the Coriolis force. Therefore it is incorrect to attribute the rotation of hurricanes to the Coriolis force.
 
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An artillary shell going South in the Northern hemisphere will drift right (to the West) due to Coreolus. That is the same as the atmosphere being drawn South into a low pressure zone of a hurricane. That gives a counter-clockwise spin to a hurricane. The artillary shell drift and the hurricane spin are in agreement and both are due to Coreolus.
 
warrenchu000 said:
it is NOT the reason for hurricane rotating COUNTER-CLOCKWISE. In fact, they should rotate CLOCKWISE
They do both. The wind near the surface flowing towards the centre and the wind at the top flowing away have opposite rotations. Since the Coriolis force on the N hemisphere results in all paths curving to the right, the direction of airflow (towards or away from the centre) results in opposite rotations.
The observation is in agreement with the physics. I'm not sure why you think it isn't.

warrenchu000 said:
In fact, they should rotate CLOCKWISE in the same way artillery shells are deflected in the ABSENCE of the surrounding atmosphere.
Shells and bullets don't fly in vacuum, but through the atmosphere, so I don't know what you're talking about here.
You can't attribute 'rotation' to Coriolis deflection of a single shell. They get deflected to the left (S) or to the right (N). You'd need to shoot two shells w/r to some common point of origin or the target, to indicate a rotating pattern, and the direction of shooting towards or away from that point will determine rotation.

Try drawing it all out.
 
Bandersnatch said:
They do both. The wind near the surface flowing towards the centre and the wind at the top flowing away have opposite rotations. Since the Coriolis force on the N hemisphere results in all paths curving to the right, the direction of airflow (towards or away from the centre) results in opposite rotations.
The observation is in agreement with the physics. I'm not sure why you think it isn't.Shells and bullets don't fly in vacuum, but through the atmosphere, so I don't know what you're talking about here.
You can't attribute 'rotation' to Coriolis deflection of a single shell. They get deflected to the left (S) or to the right (N). You'd need to shoot two shells w/r to some common point of origin or the target, to indicate a rotating pattern, and the direction of shooting towards or away from that point will determine rotation.

Try drawing it all out.
The deflection of artillery shells is due to the Coriolis effect. They are deflected to the east when aimed south. This would be like winds in a high pressure center blowing in a counter-clockwise direction - which they do not.
 
FactChecker said:
An artillary shell going South in the Northern hemisphere will drift right (to the West) due to Coreolus. That is the same as the atmosphere being drawn South into a low pressure zone of a hurricane. That gives a counter-clockwise spin to a hurricane. The artillary shell drift and the hurricane spin are in agreement and both are due to Coreolus.
No. The artillery shell going south would drift to towards east.
 
warrenchu000 said:
In the northern hemisphere, they rotate counter-clockwise. In the southern hemisphere, they rotate clockwise.

More generally, this is true of all cyclones.
 
warrenchu000 said:
The deflection of artillery shells is due to the Coriolis effect. They are deflected to the east when aimed south.
warrenchu000 said:
No. The artillery shell going south would drift to towards east.
If you mean on the N hemisphere, then that's wrong. The Earth is rotating towards the east. Deflection is westwards.
 
warrenchu000 said:
No. The artillery shell going south would drift to towards east.
Use math. The coriolis acceleration is ##2 v \times \Omega##. For a shell fired horizontally south from 45 degrees north latitude ##v## is due south and horizontal, ##\Omega## is north, but inclined 45 degrees up, so ##v \times \Omega## is horizontal and due west.
 
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Not mentioned yet is that in the northern hemisphere, low pressure zones rotate counter-clockwise, while high pressure zones rotate clockwise.
 
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warrenchu000 said:
No. The artillery shell going south would drift to towards east.

A shell launched straight south had a lower eastward velocity at launch than the points on the Earth's surface south of it. That is, the ground south of the shell's launch location is moving eastward faster than the ground at the launch point. An extreme example is to launch the shell from the north pole, which has zero east velocity. So as the shell flies south, it sees the velocity of the ground underneath it gradually increase from zero. So, since the ground is moving eastward from the shell's point of view, the shell is moving westward from the ground's point of view, and vice-versa when the shell is launched to the north. Thus leading to a rightward curving path, which is westward when moving south and eastward when moving north.
 
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warrenchu000 said:
In the northern hemisphere, they rotate counter-clockwise. In the southern hemisphere, they rotate clockwise. This is often attributed to the Coriolis effect, an apparent deflection of moving objects in a rotating frame of reference. While this is true for deflected artillery shells, it is NOT the reason for hurricane rotating COUNTER-CLOCKWISE. In fact, they should rotate CLOCKWISE in the same way artillery shells are deflected in the ABSENCE of the surrounding atmosphere. But it is the DIFFERENTIAL VELOCITIES of the surrounding atmosphere that CARRIES the hurricane winds in their direction, with the atmosphere moving FASTER nearer to the equator and SLOWER nearer to the pole in the west to east direction.
So in the northern hemisphere, as winds blow toward the center of the hurricane, the wind is carried (west-to-east speed sped up) westward when traveling south and carried (west-to-east speed slowed down) eastward when traveling north.
If there was no surrounding atmosphere to carry the winds, the opposite would happen. The hurricane would appear to rotate CLOCKWISE as a result of viewing it in a non-inertial frame and of the pseudo force known as the Coriolis force. Therefore it is incorrect to attribute the rotation of hurricanes to the Coriolis force.
My apologies to everyone. I was wrong. The above description is indeed the Coriolis effect, including the atmospheric effect. Thanks to those who made me realize my error.
 
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