high pressure....low pressure

[docjoe]

Is there a specific millibar where pressure above it is considered high and pressure below it considered low or is is based relative to surrounding pressures? For example a recent tropical discussion mentioned a 1017 millibar high and a 1009 millibar low. Thanks for the help.

docjoe

[micktooth]

Good question. I think this might help.
http://www.bom.gov.au/lam/Students_Teachers/pressure.shtml


High and Low Pressure Systems

Introduction


Regions of sinking air are called highs, high pressure regions or anticyclones. Clear skies and fair weather usually occur in these regions.

Regions of rising air are called lows, low pressure regions, depressions or cyclones. Clouds rain and strong winds often occur in these regions.

See high pressure system, low pressure system, cold fronts and parcels of air for more detailed and information.

Look at the map below (Figure 1). This shows a typical pattern of high and low pressure regions. The curved blue lines are called isobars. These pass through areas with the same air pressure.

Air pressure is measured in hectopascals. On this weather map the isobars are at 4 hectopascal intervals.

The black arrows show the wind direction. High and low pressure regions do not stay in the same place. They move over the Earth's surface.

The purple line with barbs is a cold front. The barbs point in the direction the front is moving. In the diagram below (Figure1) the cold front is moving in an easterly direction.

Figure 1
A simple weather map showing low (L) and high (H) pressure regions, wind direction,
a ridge of high pressure and a cold front (the purple barbed line).

Synoptic chart

The animations given below show the movement of air (wind) in and between, high and low pressure regions. They use the map above (without Australia and New Zealand included).

The balls represent parcels of air. Blue = colder air, orange = warmer air. The air warms up as it falls from above and cools down as it rises.

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Animation 1


Notice how the sinking air spirals outward in an anticlockwise direction, in the high pressure region (only in the southern hemisphere).

In the low pressure region the rising air spirals inward, in a clockwise direction (only in the southern hemisphere).


Air animation 1

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Animation 2


This animation shows how a small part of the air may flow across the isobars from high to low pressure.



Air animation 2

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Animation 3


This animation shows how air can come from other nearby pressure systems or go to other nearby pressure systems.

Air animation 3

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The following information is courtesy of Project Atmosphere Australia,1996:
" General Meteorology Temperate Systems".
High pressure systems


The air associated with a high pressure system sinks down from above and warms as it does so and is very stable.

A high pressure system (anticyclone), is a system of closed isobars surrounding a region of relatively high pressure. When compared with low pressure systems, highs tend to cover a greater area, move more slowly and have a longer life.

When the high pressure system is located over land the weather will be typically dry and free of cloud.

Where the isobars are elongated around a high pressure system (see Figure 1) they are referred to as a ridge.

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Low pressure systems


A low pressure system (cyclone) develops where relatively warm air ascends from the Earth's surface. These are systems of closed isobars surrounding a region of relatively low pressure.

As the rising air cools, clouds will begin to form. The instability of the air will produce quite large vertical development of cumuliform clouds with associated rain showers (such as cumulonimbus cloud).

An elongated extension of isobars away from a low pressure centre is known as a trough of low pressure. This trough usually contains one or more cold fronts.

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Cold fronts


A cold front is the delineation between cold polar air moving towards the equator and undercutting warm tropical air moving poleward. The temperature differences across a cold front can be extreme and associated with strong winds. The warm tropical air is forced to rise and become unstable with the development of large cumuliform clouds. Severe weather such as thunderstorms, squall lines and severe turbulence may accompany these cold fronts.

On a weather chart, a cold front is represented as a line with barbs pointing in the direction of movement of the front, from cold to warmer air (see Figure 1).

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Parcels of air


A parcel of air is, in essence, nothing more than a sample of air. Generally it is assumed to be small enough to be homogenous (the same all the way through). So that pressure, temperature and humidity are the same throughout it, but large enough to contain at least several thousand molecules so that these parameters are meaningful.

It is useful to visualise a blob of air. We assume that the parcel has the same pressure as its environment but also that it doesn't mix with its environment. - in other words we put it in a plastic bag that is rather too large for it.

An adiabatic process is one in which no heat is removed from, or added to, the parcel. Think of the plastic bag as being thoroughly insulated.

When a dry air parcel is lifted adiabatically, its pressure falls, and so it expands. This expansion takes place against the inwards pressure of the surrounding environmental air on the parcel.

The parcel expends energy in "pushing" the environment back.

The only source of energy available to the parcel is its temperature and so this must fall. Similarly, parcels which are forced to descend become warmer.

[TS Zack]

It is based on the surrounding pressures. If you look here, there is a 1016MB Low in the Northern Gulf.

A WEAK 1016
MB SFC LOW IS LOCATED NEAR THE MISSISSIPPI DELTA WITH A TROF
EXTENDING EWD TO APALACHEE BAY

[senorpepr]

Is there a specific millibar where pressure above it is considered high and pressure below it considered low or is is based relative to surrounding pressures? For example a recent tropical discussion mentioned a 1017 millibar high and a 1009 millibar low. Thanks for the help.

docjoe

Highs and low are simply to designate a pressure maximum or minimum. There are no set numbers.

A 1017mb high would mean that given point is the highest pressure nearby, with a central highest pressure of 1017mb. As for the low, it's the lowest pressure nearby, with a pressure of 1009mb.

Check out: http://iwave.rsmas.miami.edu/surf/images/tanal.1.gif

Each of those lines are called isobars: lines of equal pressure. A line labelled "20" would mean all pressures on that line is 1020mb.

Notice the high northeast of the Azores? The center of that area of high pressure is 1031mb. Notice the low south of Louisiana and Mississippi? The center of that area of lower pressure (as compared to the nearby locations) is 1016mb.

Hopefully this helps make things clear. If not, let me know.

[Hybridstorm_November2001]

Average sea level pressure (across the whole surface of the Earth) is considered to be roughly 29.92 Inches/1013 mb. Hope that helps.


Hybridstorm_November2001

[Astro_man92]

High

Low

LOL[img]http://home.cfl.rr.com/smileypage/look's%20temp%20smiley%20page/LolLolLolLol.gif[/img]

[KeyLargoDave]

It's all relative, man.

Couldn't resist.