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Meteorology 5.01 Heating and Cooling of the Atmosphere References: FTGU pages 123, 124, 136 and 137 5.01 Heating and Cooling of the Atmosphere • MTPs: – Vertical Structure – Composition – ICAO Standard Atmosphere – Temperature Scales – Atmospheric Properties – Atmospheric Density – Temperature Differences – Heating and Cooling Vertical Structure • Troposphere – Weather happens here – To 25,000 – 30,000 feet over poles – To 55,000 – 65,000 feet over equator – Temperature decreases with height • Stratosphere – Troposphere to 170,000’ – Temperature increases with height Vertical Structure • Mesosphere – Stratosphere to 270,000’ – Temperature decreases with height, to -85°C • Thermosphere – Tops at 1.1 million to 2.6 million feet (350-800 kilometres) – Temperature increases with height, up to 1,500°C • Exosphere – Mainly comprised of hydrogen and helium – Extends into space Vertical Structure Vertical Structure • Label the layers of the atmosphere! • Choose from these: – Stratosphere – Thermosphere – Exosphere – Troposphere – Mesosphere Composition • The atmosphere is made up of a mixture of gases – Nitrogen (78%) – Oxygen (21%) – Other (~1%) (Argon, CO2, Water Vapour etc.) – Although water vapour is less than 1% of the atmosphere, it remains the most important component from the standpoint of weather, based especially on its ability to change state Nitrogen Oxygen Other ICAO Standard Atmosphere • The International Civil Aviation Organization (ICAO) Standard Atmosphere: – Sea Level for North America – Based on summer and winter averages at 40°N latitude • The Standard: – MSL pressure of 29.92” Hg (1013.25 hpa) – MSL temperature of 15°C – Air is a “perfectly dry gas” – Lapse rate of 1.98°C per 1000 feet Temperature • Sun heats earth, earth heats atmosphere • Celsius (nearly worldwide): – Freezing point of water: 0°C – Boiling point of water: 100°C Atmospheric Properties • Mobility – The ability for air to move – Atmosphere like an “ocean of air” – Wind like “streams of water” – (Much more freedom of movement with air than water) • Compression – Air is compressed as it descends into greater pressure – Occupies less space Atmospheric Properties • Expansion – As air rises, it reaches areas of lower pressure, causing it expand and cool – This cooling can be enough to condense water vapour in the air, forming cloud – This is why clouds and precipitation are common in areas of rising air – From a meteorological standpoint, the most important property of the air! – www.youtube.com/watch?v=Li9eyds1Y_g Atmospheric Properties Density - mass per unit volume • Cold air is dense: – Molecules are move slowly and are packed close together – Heavier and tends to sink • Warm is less dense: – Molecules are moving rapidly taking up more space (or less molecules in the same space) – Warm air is lighter and is pushed up by the cold air Atmospheric Density • Density Relationships: –Density vs. Temperature: • Indirectly proportional –Density vs. Humidity: • Indirectly proportional –Density vs. Pressure: • Directly proportional Confirmation • Questions • 1. What is the most important property of the atmosphere? • 2. If the density of the air increases, what happens to the pressure? • 3. What gas makes up the majority of the atmosphere? – Nitrogen 78% Temperature Differences • Horizontal Temperature Differences – Diurnal Variation – Seasonal Variation – earth’s tilt – Latitude- north pole versus equator – Topography • Land and water differences – Clouds • Clouds reflect large amounts of solar radiation • At night, clouds trap the heat radiated off the earth Atmosphere Heating • Types of Atmospheric Heating: – Radiation (heating) • Earth absorbs sun’s short wave radiation • The lower atmosphere is then heated by the earth LONG & SHORT WAVE’S SHORT WAVE INSOLATION LONG WAVE TERRESTRIAL RADIATION 6 Atmospheric Heating – Conduction • If two substances are in contact, heat will flow from the warmer to the colder substance • Air is a poor conductor, so this usually only occurs in small layers • Same as the heat transferred when roasting marshmallows Cold air Solar radiation Cool air Air warmed by conduction warm surface Atmospheric Heating – Convection • Air heated through conduction becomes buoyant and rises • This air then heats the air in the upper atmosphere Convection COLD AIR mixing occurs COLD AIR warm air rises COLD AIR heat is carried vertically by convection WARM SURFACE 9 Atmospheric Heating – Advection (heating) • Occurs when cold air moves over a warm surface and its lower layer is heated by conduction Advection COLD advective warming WARM SURFACE WARM Atmospheric Heating – Turbulent Mixing • Turbulent air mixes a warmer surface layer of air with an unheated air aloft, spreading the heat upward TURBULENT MIXING WIND CAUSES TURBULENCE MIXES LOW LEVEL HEAT TO UPPER LEVELS Cool air Turbulent mixing warm air warm surface 11 Atmospheric Heating –Compression • As air descends it compresses due to increased pressure and therefore heats up Compression Sinking Air is compressed by higher pressure and its temperature will increase Atmospheric Cooling – Advection cooling • Lower levels only • When air is cooled by moving over a colder surface • Cooling occurs as a result of conduction between air and surface • Some mechanical turbulence can aid in spreading cooling effect Advection Cooling Warm Air moving Over a cooler surface WARM advective cooling COLD cool surface Atmospheric Cooling – Expansion cooling • The most important cooling process of the air • Air forced to rise experiences lower pressure and is allowed to expand • This expansion causes decrease in temperature Expansion Cooling Lower pressure AIR EXPANDS & COOLS WARM COOL Lower pressure Confirmation Questions 1. Name 2 types of atmospheric heating 2. Name 2 types of atmospheric cooling 3. Describe how the earth is heated and cooled through radiation. 4. Which layer of the atmosphere contains all weather? Soaring