Section 02 Lesson 5/6/7 Atmospheric Pressure, Temperature and Density n Definition of Atmospheric Pressure n Measurement of Pressure n QFF, QFE, QNH n.

Section 02

Lesson 5/6/7

Atmospheric Pressure, Temperature and Density

Definition of Atmospheric Pressure Measurement of Pressure QFF, QFE, QNH Pressure Variation at Surface Level Pressure Variation with Height Density International Standard Atmosphere Gas Laws

Atmospheric Pressure Pressure is defined as force per

unit area. Atmospheric pressure is the force

exerted at the earth’s surface by a column of air above it.

Pressure at a point acts uniformly in all directions.

Units of pressure are: millibar (mb). hectopascal (hPa). 1mb = 1 hPa

Atmospheric Pressure

Atmospheric pressure is defined as the force per unit area exerted against a surface by the weight of the air column above that surface.

The pressure at point "X" increases as the weight of the air above it increases. The pressure at point "X" decreases if the weight of the air above it decreases.

Mercury barometer

Vacuum

Measurement of Atmospheric Pressure

Aneroid Barometer

Barograph Recorder

QFE

Is the prevailing atmospheric/aerodrome pressure at the airfield elevation

QFF

Is the local station barometric pressure adjusted to mean sea level assuming an isothermal column of air at station temperature

It is only used on surface synoptic charts It is expressed to one decimal point.

QNH

Is a pressure setting which when set on an altimeter sub-scale will cause it to read the airfield elevation above mean sea level.

ISA conditions are assumed for the air column

It is always expressed in integer values.

Pressure Variation Pressure varies widely from day to

day. Usual range of variation,

970 mb to 1030 mb. Lowest recorded,

870 mb, Typhoon Tip, Oct. 1979. Highest recorded,

1084 mb, Agata, Siberia, Dec. 1968.

Extremes of Surface Pressure Variation

60

Horizontal Pressure Variation

Isobars Highs/Anticyclones Ridges Lows/Cyclones Troughs Pressure Gradient Pressure Gradient Force Isallobars

Isobars A line drawn on a weather map

connecting points of equal pressure is called an isobar.

The isobars are generated from mean sea level pressure reports.

The pressure values are given in hectopascals (or millibars).

Surface Isobar Charts

Reporting stations are not all at Mean Sea Level.

Local Barometric Pressure is adjusted to Mean Sea Level using an Isothermal column of air.

Mean Sea Level Pressure plotted on Synoptic Charts is known as the QFF.

Typical Surface Pressure Patterns

TROUGH - formed by the extension of a low

RIDGE - formed by the extension of an anticyclone

COL - a zone of slack pressure gradients with calm or light variable winds

COL Weather over land

Winter: Poor vis; radiation fog

Summer: CB/TS in late afternoon

Patterns of Pressure Distribution

Anticyclones or highs: are regions where the pressure at its centre is highest relative to its surroundings. The circulation is clockwise in the northern hemisphere and anticlockwise in the southern hemisphere.

Ridge: a region of isobars extending away from a high centre with no sharp curvature. Pressure along the line of the ridge is higher than its surroundings.

Patterns of Pressure Distribution

Depressions or lows (or cyclones): are regions where the pressure at its centre is lowest relative to its surroundings. The circulation is anticlockwise in the northern hemisphere and clockwise in the southern hemisphere.

Trough: is a region of isobars extending away from a low centre and may have sharp curvature. Pressure along the line of the trough is lower than its surroundings

Cols: is a region of nearly uniform pressure situated between a pair of highs and a pair of lows.

Pressure Variation with Height

Pressure changes aloft

Pressure decreases with height Pressure also varies horizontally aloft. This is due to horizontal variations of mean

temperature in layers in the atmosphere.

Pressure changes aloft

Rate of pressure decrease with height decreases significantly nearer the tropopause

Pressure is determined by the density of air above

Density

Density = Mass per unit volume (kg/m3)

When air is heated, density becomes less

With an increase in height, both pressure and density decrease

Density variations

Density of dry and moist air

Dry air = 78% N2 , 21% O2

Molecular weight: N2 = 28

O2 = 32

= 60

H20 = 18 Therefore moist air is less dense

than dry air

The Relationship between Pressure, Temperature and Density

Air behaves according to the Gas Law Pressure = Temperature x Density x Gas Constant

• p = T x x C or leaving out the constant

• p T x Pressure is directly proportional to Temperature

and Density

Gas Law Continued

If Temperature held constant:

p Thus air at a higher pressure is more dense than air

at a lower pressure. If the Pressure is held constant:

T x = Constant Thus at a given atmospheric pressure, air that is cold

is more dense than air that is warm.

Summary of conclusions from Gas Laws

Density of air Increases with increasing air pressure

i.e. decreasing altitude Increases if the temperature is decreased Decreases if the air pressure decreases

i.e. increasing altitude Decreases if the temperature increases.

Summary of conclusions from Gas Laws

Note that the controlling factor in the atmosphere is air pressure. The rapid decrease of pressure with height

overcomes the tendency of the decreasing temperature with height to increase density.

Pressure and Height Calculations

At sea level pressure 1013hPa and 15°C 1hPa = 27 ft height change

At 500 hPa 1hPa = 50 ft height change

Radiosonde data is used to calculate the “thickness” of the atmosphere at various locations

International Standard Atmosphere

MSL Temperature 15°C; 288K

MSL Pressure 1013.25 mb, 29.92 ins Mercury.

MSL Density 1225 gm/m3

TemperatureDecreasing 1.98°C/1000 ft (6.5°C/km) to 11000 m (36090 ft).Isothermal at –56.5°C to 20,000 m (65617 ft).Increasing at 0.3°C/1000ft (1°C/km) to 32,000 m (104987 ft).

Standard Pressure LevelsPressure (mb) Approx. Height1000 Mean sea level700 10,000 ft.500 18,000 ft.400 24,000 ft.300 30,000 ft.250 34,000 ft.200 39,000 ft.150 45,000 ft.