STANDARD GRADE DEPRESSIONS & ANTICYCLONES John Smith Invergordon Academy CONTENTS Atmospheric pressure Low pressure (Depressions) High Pressure (Anticyclones) Weather Maps Exit INTRODUCTION TO ATMOSPHERIC PRESSURE There are two types of weather systems: • Low pressure systems • High pressure systems These systems affect the weather we receive from day to day. They are caused by differences in atmospheric pressure WHAT DO WE MEAN BY AIR PRESSURE? The earth’s atmosphere is made up of many gases, eg oxygen nitrogen carbon dioxide Atmospheric pressure is the weight of these gases pressing down on the surface of the earth. If we could take a column of air covering 1 square centimetre, from sea level to the outer edge of the atmosphere, it would weigh 1 kilogram. ATMOSPHERIC PRESSURE The Earth’s atmosphere presses down on the surface of the Earth. The Earth’s surface CHANGES IN ATMOSPHERIC PRESSURE Atmospheric pressure is the weight of gases pressing down on the surface of the earth. Atmospheric pressure is measured in millibars (mb). Average atmospheric pressure is 1000mb. Sometimes atmospheric pressure is higher than average. We call this high pressure. Sometimes atmospheric pressure is lower than average. We call this low pressure. WHY DOES ATMOSPHERIC PRESSURE CHANGE? 1 If air is heated it rises away from the Earth’s surface. Rising air reduces the weight of air pressing down on the Earth’s surface. This means that air pressure is low. LOW ATMOSPHERIC PRESSURE The Earth’s atmosphere presses down on the surface of the Earth. Warm air rises. This reduces the weight of air pressing down on the Earth’s surface. The Earth’s surface is warmed by the sun’s rays. WHY DOES ATMOSPHERIC PRESSURE CHANGE? 2 When air is cold, high up in the atmosphere it falls towards the earth’s surface. Falling air increases the weight of air pressing down on the Earth’s surface. This means that air pressure is high. HIGH ATMOSPHERIC PRESSURE The Earth’s atmosphere presses down on the surface of the Earth. Cold, dense air falls. This increases the weight of the air pressing down on the Earth’s surface. The Earth’s surface HIGH AND LOW PRESSURE TOGETHER Warm air rising causes LOW pressure. Cold air falling causes HIGH pressure. WIND The Earth’s surface is warmed by the sun’s rays. PRESSURE SYSTEMS Low pressure systems are also known as depressions. High pressure systems are also known as anticyclones. The aim of this presentation is to help you understand how these pressure systems affect our weather. Click on the buttons on the next page to carry on. LOW PRESSURE SYSTEMS How depressions form What happens at the warm front? What happens at the cold front? What happens in the warm sector? What happens at the occluded front? Main Menu LOW PRESSURE SYSTEMS Imagine an area out in the North Atlantic Ocean, to the West of the UK where the air is fairly cool. This cool air is represented by the light blue background on the following slides. Cold air will be shown in darker blue. Warm air will be shown in red. THE AIRMASSES OVER THE ATLANTIC Imagine you are looking down on a large area of the North Atlantic Ocean. The air is quite cool (light blue). In this area, different types of air masses meet. We will look at two of these. 1. Cold Arctic air blowing from the North East 2. Warm moist Tropical air blowing from the South West THE AIRMASSES MEET…… Cold Arctic air blows from the North East Warm, moist Tropical air blows from the South West ……BUT THEY DO NOT MIX The two sets of air do not mix together As they blow past each other, friction causes them to swirl round WARM AND COLD SECTORS This means that we now have a cool area (shown by the light blue background)…. …with a wedge of very cold Arctic air (shown by the darker blue triangle)…. …this is called the COLD SECTOR. Cold Arctic air Warm, moist Tropical air There is also a wedge of warm moist Tropical air. (red triangle)... …this is called the WARM SECTOR. DIRECTION OF MOVEMENT These systems usually move either East, or North East Cold Arctic Cold Arctic Cold ArcticCold Arctic Cold Arctic Cold Arctic air air air air air air Warm, Warm, moist moist TropicalTropical air air Warm, moist Tropical air Warm, moist Tropical air Warm, moist Tropical air Warm, moist Tropical air WARM AND COLD FRONTS The line between the warm sector and the cold sector is called the COLD FRONT. Cold Arctic air Cool air Warm, moist Tropical air The line between the cooler air and the warm sector is called the WARM FRONT. A SIMPLE CROSS SECTION THROUGH A DEPRESSION COLD SECTOR (cold, dense air) THE WARM SECTOR (warm, moist air) Dense cool air CONDITIONS AT STATION X (1) Cold Arctic air Warm, moist Tropical air X What conditions would be felt at X? a) Cool b) Cold c) Warm CONDITIONS AT STATION X (2) What has passed over X? Cold Arctic Cold Arctic Cold Arctic Cold Arctic air air air air Warm Front b) Western Front c) Cold Front What conditions would be felt at X? X Warm, Warm, Warm,Warm, moist moistmoist moist Tropical Tropical Tropical Tropical air air air air a) a) Cool b) Cold c) Warm From which way are the winds blowing at X? a) South East b) North West c) South West CONDITIONS AT STATION X (3) What has passed over X? a) Warm Front b) Western Front c) Cold Front What conditions would be felt at X? a) Cool b) Cold c) Warm Cold Arctic Cold Arctic Cold Arctic Cold Arctic air air air air Warm, Warm, moist moist TropicalTropical From which way are the winds blowing at air air X? a) North East b) North West c) South West X Warm, moist Tropical air Warm, moist Tropical air WHAT HAVE YOU LEARNED SO FAR? Low pressure systems are also called depressions Cold Arctic winds blow from the North East Warm moist Tropical winds blow from the South West The wedge of cold air is called the cold sector The wedge of warm air is called the warm sector The leading edge of the cold sector is the cold front The leading edge of the warm sector is the warm front WHAT HAPPENS AT THE WARM FRONT? Warm air begins to rise over the cooler air As this air rises, it begins to cool Cool air can hold less water vapour than warm air Water vapour begins to condense into water droplets Water droplets begin to form clouds The first – and highest – type of cloud to form along the warm front is called Cirrus AIR RISING ALONG THE WARM FRONT (1) These high-level wispy clouds are called CIRRUS Water vapour condenses and forms clouds As the warm air rises, it cools. Warm air is forced to rise over denser, cool air. Dense cool air CIRRUS CLOUDS PRECIPITATION AT THE WARM FRONT Clouds form lower down, and give prolonged rain More moist air rises and cools CIRRUS These are CUMULUS Dense cool air CUMULUS CLOUDS THE WARM FRONT - SUMMARY CUMULUS clouds bring prolonged rain at the warm front More moist air rises over the cooler air. As it does so it cools. CIRRUS are very high and wispy. They are usually the first clouds we see as the warm front approaches Dense cool air AN APPROACHING WARM FRONT CIRRUS CUMULUS WHAT HAPPENS AT THE COLD FRONT? The cold Arctic air moves faster than the warm air. The cold Arctic air is denser than the warm air. The cold Arctic air undercuts the warm air, forcing it up. Water vapour begins to condense into water droplets Water droplets begin to form very tall clouds The clouds along the cold front are called Cumulonimbus. THE COLD FRONT The cold front rapidly undercuts the air in the warm sector, making it rise very quickly. The Cold Sector ( cold dense air ) The Warm Sector (warm, moist air) PRECIPITATION AT THE COLD FRONT Very tall clouds are formed by the rapidly rising air. These are called CUMULONIMBUS. CUMULONIMBUS give very heavy showers, sometimes with thunder and lightning. The Warm Sector (warm, moist air) CUMULONIMBUS CLOUDS IN THE WARM SECTOR Warm, moist winds blow from the South West Air is forced to rise over cooler air Condensation occurs, and forms Stratus clouds The sky is very overcast Showers are common THE WARM SECTOR Warm, moist air in the warm sector is rising. Dense cool air CLOUD & PRECIPITATION IN THE WARM SECTOR Warm, moist air in the warm sector is rising. The clouds formed here are mostly Stratus Stratus are flat layer clouds. They give showers. STRATUS Dense cool air CLOUD & PRECIPITATION – SUMMARY 1 CUMULONIMBUS CUMULUS CIRRUS STRATUS HEAVY SHOWERS LIGHT SHOWERS Dense cool air PERSISTENT RAIN A SATELLITE IMAGE OF A DEPRESSION CROSS SECTION THROUGH A DEPRESSION CLOUD Cumulonimbus Stratus PRECIPITATION Heavy showers Showers TEMPERATURE WIND DIRECTION AIR PRESSURE Cold N.W. or N Rising Warm S.W. Low Cumulus Prolonged rain Cool E or N.E. Falling Cirrus HIGH PRESSURE SYSTEMS High pressure systems are also known as anticyclones HIGH ATMOSPHERIC PRESSURE The Earth’s atmosphere presses down on the surface of the Earth. Cold, dense air falls. This increases the weight of the air pressing down on the Earth’s surface. The Earth’s surface WHAT CAUSES HIGH PRESSURE? When air high in the atmosphere is cold, it falls towards the earth’s surface. Falling air increases the weight of air pressing down on the Earth’s surface. This means that air pressure is high. WHAT WEATHER DOES HIGH PRESSURE BRING? As the cold air falls through the atmosphere, it becomes slightly warmer. Because warm air can hold more moisture than cold air, no condensation or clouds occur. There are no warm or cold fronts in high pressure areas. This means that high pressure systems bring clear skies. Winds are usually light, and blow out of the high pressure area. HIGH PRESSURE IN WINTER High pressure in winter gives us clear skies very low temperatures calm, or light winds no precipitation frosty conditions HIGH PRESSURE IN SUMMER High pressure in summer gives us clear skies high temperatures calm, or light winds no precipitation © Microsoft Word clipart WEATHER MAPS Weather symbols Low pressure Systems (Depressions) High Pressure Systems (Anticyclones) Main Menu HOW IS WEATHER SHOWN ON A WEATHER MAP? (1) TYPICAL MEDIA WEATHER MAP Look at the symbols. What weather does Eastern England have? HOW IS WEATHER SHOWN ON A WEATHER MAP? (2) Present weather Mist Fog Thunder Drizzle Rain Snow Hail The shower symbol can be combined with others…. Rain shower Hail shower Snow shower Shower HOW IS WEATHER SHOWN ON A WEATHER MAP? (3) Wind direction and wind speed Wind direction is shown by a line leading into the station circle. This symbol shows that the wind blew into the station circle from the east This symbol shows A gale force wind This symbol shows that there was no wind : calm FRONTS ON WEATHER MAPS Warm fronts are shown by the following symbol. Cold fronts are shown by the following symbol. There is a third type of front that we will study later – the OCCLUDED front. They are shown by the following symbol. LOW PRESSURE SYSTEMS Low pressure systems are also known as depressions ISOBARS AROUND A DEPRESSION (1) Isobars are lines on a weather map that join places that have the same atmospheric pressure. The pressure indicated by the isobars decreases as you move towards the centre of a depression. 996 992 988 984 LOW A DEPRESSION, SHOWING THE WARM & COLD FRONTS WINDS AROUND A DEPRESSION Winds always blow from high pressure to low pressure Winds blow inwards anticlockwise round a depression 996 992 988 984 LOW ISOBARS AND WIND SPEED When isobars are close together, we will get strong winds. 996 99 98 2 8984 LOW 996 992 988 984 LOW The further apart the isobars are, the gentler the winds will be. THE DEPRESSION WITH WINDS ADDED TYPICAL SYNOPTIC CHART You can recognise the isobars around the low pressure area. SATELLITE IMAGE OF SAME DAY HIG H LOW HIGH PRESSURE SYSTEMS High pressure systems are also known as anticyclones ISOBARS AROUND A HIGH PRESSURE AREA The isobars around an area of high pressure are usually quite far apart The pressure indicated by the isobars increases as you move towards the centre of a high pressure area. 996 1000 100 4 100 8 HIGH WINDS AROUND A HIGH PRESSURE SYSTEM Winds always blow from high pressure to low pressure Winds blow outwards clockwise from high pressure Winds blow gently, because the isobars are far apart. 996 1000 100 4 100 8 HIGH A SYNOPTIC CHART MARCH 14 2002 Scotland has high pressure. Look at the large area with no isobars. What effects would this have on the weather in Invergordon? CHART EXERCISES WHAT IS AN OCCLUDED FRONT? You have already learned that the cold front moves faster than the warm front. The warm sector is squeezed upwards, so that is right off the ground. The result is an occluded front. It is what happens when the cold front catches up with the warm front. FORMATION OF AN OCCLUDED FRONT Warm sector has been lifted off the ground… …so has the warm front The Cold Sector (cold, dense air) OCCLUDED FRONT THE EFFECT OF AN OCCLUDED FRONT (1) CUMULONIMBUS CUMULUS CIRRUS The Cold STRATUS Sector (cold, dense air) Dense cool air LIGHT SHOWERSHEAVY SHOWERS PERSISTENT RAIN THE EFFECT OF AN OCCLUDED FRONT (2) The approaching warm front looks normal – cirrus and then cumulus clouds, which bring rain. The warm front does not reach the ground, it has been replaced by a section of the cold front. There are no warm southerly winds at ground level. Instead, cold northerly winds are felt behind the cold front. The warm sector, now pushed high up, cools. This is the end of the low pressure system, because there is no more warm air rising away from the Earth’s surface.