Welcome to South Hereford Weather Site About the weather and Clouds

The weather machine

The radiation from the sun heats the surface of the Earth, which in turn heats the air above it, causing it to rise.

Air above a warm part of the planet will rise faster than the surrounding cooler air, so more air slides in to take its place in the low-pressure void left behind.

So wind is born. And that is the heart of the weather machine: heat and pressure differences bring cyclones, depressions, thunderstorms and hurricanes, all blown across the surface of the globe by the wind.

But if wind is the engine of the weather, water is the fuel. Our weather consists of a constant interplay of water as vapour, liquid and solid ice.

As we will see in later chapters describing the formation of rain, snow and storms, so much depends on water molecules changing from one state to the other that it is not surprising to find that our planet lies at precisely the right distance from the sun for water to exist in all three states at the same time.

Alone among the planets of the solar system, Earth has average temperature and pressure that are very close to what scientists call the ‘triple point’ of water — the combination of temperature and pressure at which water can exist in all three of its physical states. This property of our planet is one which allows us to exist.

Warm air, dry air, cold air and wet air all behave in different ways, and it is those qualities of air that make it move and drive the engine of the weather.

Although it may not seem obvious, moist air is less dense than dry air, and so will always tend to rise above it. This is because of a very simple piece of physics.

A water molecule is made up of one oxygen atom and two hydrogen atoms (H20). Because hydrogen atoms are the smallest and lightest atoms that exist, a molecule of H20 is much lighter than a molecule of either oxygen (02) or nitrogen (N2), which are what dry

air consists of. In moist air, water-vapour molecules have replaced some of the oxygen or nitrogen molecules, one for one, so any given volume of moist air contains more lightweight molecules than does the same volume of dry air, and therefore it is lighter and less dense.

Warm air is less dense than cold air because, when they are warm, all air molecules are more active, move around more and take up more space — the air expands.

Thus a given volume~of warm air will simply contain fewer molecules than that of cold air, so it will be less dense.

In a nutshell, if there is warm, hioist air it is going to move up and, at its very simplest, all of our various forms of weather have that single action at their heart: the air rises, in comes the wind below; as the air rises further it cools, the water vapour condenses to cloud and down comes the rain That’s all there is to it.