Properties of water

The principle properties of water are its polarity, cohesion, adhesion, surface tension, high specific heat, and evaporative cooling.

We talk about water our favourite molecule.  It’s polar. It’s shaped like an outstretched V. Its properties are awesome. Also, it makes up ¾ of the Earth’s surface.Our favourite molecule is water. And we’re not going to lecture you about how important water is and the fact that all  life as we know it could not survive without it, because yeah that’s true, but we really want to talk about what makes water so unique for biology itself. What are these awesome  properties?

Polarity

We mentioned the shape of water and the fact that it is polar. It has one very electronegative oxygen that is always trying to keep the electrons closer to it than to the hydrogens it is bonded to. This actually gives the oxygen a slightly negative charge---because of the electrons that are spending more time next to it---and it gives the hydrogens a slightly positive charge.

 Well that means that other water molecules have an easy time bonding together. Why? Because  the hydrogen of one water molecule with its slightly positive charge can bond to another  water molecule’s oxygen with a slightly negative charge. These bonds among the water  molecules are hydrogen bonds, and these very bonds are what allow water to do these things  that it can do…which we are about to talk about.

Cohesion

 Have you ever looked at a really tall tree and wondered, “How does the water get all the way up there?” I mean, it’s got to go against gravity. Gravity! Well in our plant , we talk about the xylem. It's vessels inside particular sorts of plants, similar to trees, that transports water. In any case, what's extremely slick about water is that - it adheres to the xylem dividers in what is known as bond. This helps battle gravity. But water molecules, with their hydrogen bonding, also bond to each other in something called cohesion.

 In almost a “beads on a string” kind of fashion, as water molecules evaporate from a leaf---the  next water molecule in line is pulled upwards and so on.  Union is likewise an explanation that water striders, one of our preferred bugs, can skate on water.cohesion adds to the surface tension of water. 

Adhesion

 Water really has a considerable amount of surface strain contrasted with different fluids. Furthermore, it's not simply water striders.  There are a lot of insects, spiders, and even larger animals like reptiles and birds that can walk on water. water being polar, it also is a powerful solvent for other molecules. That means that  water can dissolve many other molecules especially polar molecules and ionic compounds. Why does  that matter? This is important because many of the processes occurring in organisms use  water as a solvent. Just consider the need for water for your kidneys in their filtering  properties and all different types of body fluids. 

 I’ll never forget when I was little, my father built us a pond. We had some goldfish in there. We loved our pond. In winter,one morning I went outside, terrified, to find that the top of my pond had frozen. I thought my fish were goners. Just to discover them swimming and doing their… fish exercises… under the ice layer.See most substances actually contract when they freeze and become more dense. But water expands when it freezes and becomes less dense when frozen. 

 Resulting in floating ice where it can actually make an insulated surface layer that makes a difference for many organisms. This is due to the hydrogen bonds. At freezing level,the breaking and reforming of hydrogen bonds---which is usually happening often---is not happening very much. The molecules are set into a lattice of hydrogen bonded molecules just far enough apart that it is less dense in ice form than in water form. That is all going to be very important for aquatic life. 

High specific heat

Speaking of temperature, water resists changing its temperature. It has what is called a high specific heat. 

 Specific heat is a measurement of heat that needs to be absorbed or lost  for 1 g of a substance to change its temperature by 1C. That’s why, on the first day that  school is out in the summer, it may be super hot outside but the water can still be pretty  cold. It’s really good that water is like this for life. 

It is stabilizing for aquatic environment temperatures. It also means that water can absorb a lot of heat in the summer  without reaching as high of temperatures itself---which is useful when the winter comes along. The  water can release heat as it cools in the winter. Still on the topic of temperature, consider evaporation. Many animals rely on evaporation to cool them. 

Think of water molecules. They are moving, but those that have more energy are “hotter” per see are moving the fastest. They are more likely to make the phase change to gas. As these molecule leave, their vitality - their warmth  is no longer on your skin. By the way, all of this is not just animals too. 

Plants use evaporative cooling to aid them in hot  temperatures. Excessive high temperatures can be dangerous for many different processes in both plants and animals it can be damaging to the enzymes in many of those processes. Well we went through a lot of features of water.