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Actually it doesn't. The air is moving already based on pressure gradient, the Coriolis force just causes the air to curve. The best way to explain it is by an example. Place the tip of a marker in the center of a flat plate. If you move the marker in a straight line toward yourself you will make a straight line. Now do teh exact same motion while at the same time spinning the plate. Now the line is curved, but there is no actual change to the amount of force on the marker nor the direction the marker moves. I hope that isn't confusing.
What else can I help you with?
What are the three main driving forces of air motion?
The three main driving forces of air motion are pressure gradient force, Coriolis force, and frictional force. Pressure gradient force is the difference in pressure that causes air to move from high to low pressure areas. Coriolis force is the effect of the Earth's rotation that deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. Frictional force slows down the movement of air near the Earth's surface.
The most important forces that affect air motion in the atmosphere are?
The most important forces that affect air motion in the atmosphere are pressure gradient force, Coriolis force, and friction. Pressure gradient force drives air from areas of high pressure to low pressure, Coriolis force deflects air due to the rotation of the Earth, and friction slows down air flow near the Earth's surface.
Does air resistance help moving objects?
absolutely yes..these forces are called the coriolis influences..that is also the reason why aircrafts and any mode of transport in air are designed streamline to overcome these coriolis effects or simply the air resistance..another name for this is the drag..
How does the Coriolis force effect modify air movement?
The Coriolis force deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to Earth's rotation. This deflection influences the direction of air movement, creating unique patterns like the trade winds and westerlies in the global circulation system, as well as impacting the formation of weather systems and ocean currents.
Which three forces influence wind?
Pressure gradient force: differences in air pressure between two areas create a force that causes air to move from high pressure to low pressure. Coriolis force: the rotation of the Earth causes moving air to deflect to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. Frictional force: the interaction of air with the Earth's surface can slow down the movement of wind, particularly near the ground.
What are the three main driving forces of air motion?
The three main driving forces of air motion are pressure gradient force, Coriolis force, and frictional force. Pressure gradient force is the difference in pressure that causes air to move from high to low pressure areas. Coriolis force is the effect of the Earth's rotation that deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. Frictional force slows down the movement of air near the Earth's surface.
Are upper air winds unaffected by the coriolis force?
Only subtropical high pressure is affected by coriolis force whereas upper air winds (jetstreams) are not affected.
What effect will a reduction in surface wind speed have on the Coriolis force?
The effect that a reduction in surface wind speed will have on the Coriolis force is to reduce the effect of the Coriolis force. Winds blowing at higher speeds are pulled on more by the Coriolis force, which somewhat alters the direction in which they blow.
What cause circular motion of air in pressure centers?
the Coriolis effect
The most important forces that affect air motion in the atmosphere are?
The most important forces that affect air motion in the atmosphere are pressure gradient force, Coriolis force, and friction. Pressure gradient force drives air from areas of high pressure to low pressure, Coriolis force deflects air due to the rotation of the Earth, and friction slows down air flow near the Earth's surface.
Does air resistance help moving objects?
absolutely yes..these forces are called the coriolis influences..that is also the reason why aircrafts and any mode of transport in air are designed streamline to overcome these coriolis effects or simply the air resistance..another name for this is the drag..
How much apparent deflection will there be for an air-born projectile moving due West or East along any Latitude due to the Coriolis force?
The Coriolis force will cause an air-born projectile moving due West to deflect Northward and one moving due East to deflect Southward. The amount of deflection will vary depending on the latitude, with the maximum deflection occurring at the poles and decreasing towards the equator. Overall, the deflection will be less noticeable at lower latitudes.
How does the Coriolis force effect modify air movement?
The Coriolis force deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to Earth's rotation. This deflection influences the direction of air movement, creating unique patterns like the trade winds and westerlies in the global circulation system, as well as impacting the formation of weather systems and ocean currents.
What is it called when Air masses moving in the northern hemisphere are turned westward from their original paths?
The Coriolis Force
Which three forces influence wind?
Pressure gradient force: differences in air pressure between two areas create a force that causes air to move from high pressure to low pressure. Coriolis force: the rotation of the Earth causes moving air to deflect to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. Frictional force: the interaction of air with the Earth's surface can slow down the movement of wind, particularly near the ground.
What force makes hurricanes spin?
The Coriolis force, a product of the Earth's rotation, causes hurricanes to spin. This force deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere, leading to the cyclonic rotation of hurricanes.
What factors combine to control wind?
pressure differences, coriolis effect, friction
