Fluids tend to move toward low pressure areas.
Because your sucking
The low pressure area at the Equator.
(2) high pressure toward regions of low pressure
No. Wind blows away from areas of high pressure to areas of low pressure.
In zones where air ascends, the air is less dense than its surroundings and this creates a center of low pressure. Winds blow from areas of high pressure to areas of low pressure, and so the surface winds would tend to blow toward a low pressure center. In zones where air descends back to the surface, the air is more dense than its surroundings and this creates a center of high atmospheric pressure. Since winds blow from areas ofhigh pressureto areas oflow pressure, winds spiral outward away from the high pressure. The Coriolis Effect deflects air toward the right in the northern hemisphere and creates a general clockwise rotation around the high pressure center. In the southern hemisphere the effect is just the opposite, and winds circulate in a counterclockwise rotation about the high pressure center. Such winds circulating around a high pressure center are calledanticyclonic windsand around a low pressure area they are calledcyclonic winds.
No. Fluids move away from areas of high pressure and toward areas of low pressure.
Fluids flow from areas of high pressure to areas of low pressure.
Because your sucking
w,the pressure in the straw is reduced.but the atmospeheric pressure on the surface of the liquid stays the same.
This is significant as the drink moves up the straw and into your mouth.
fluids create low pressure.
The low pressure area at the Equator.
(2) high pressure toward regions of low pressure
A southeast wind is from the southeast toward the northwest.
The South Pole
It increases. High pressure air always moves toward low pressure areas. When there is low pressure, the high pressure moves in, and the movement of air creates wind.
Winds are caused by differences in air pressure not currents. Air under high pressure moves toward areas of low pressure.