I recently found myself at a child’s birthday party surrounded by a dozen kids having an absolute blast (and admittedly, giving the hosts a hard time). It just so happened that while I was eating my fair share of cookies, I found myself beside a couple of kids who were talking about the sugar that had been added to their juice. They were wondering where it had gone, because it seemed to magically vanish after stirring it. I wanted to tell them that the sugar disappeared because it dissolved. Obviously, all of us know that when sugar is mixed in water, it quickly disappears after stirring the liquid for a moment or two. The question cannot be completely answered just by saying “because it dissolves”, along with an eye roll and a shrug. So, let’s get down to the bottom of this. Where on Earth does the sugar go after being dissolved? Recommended Video for you: Does Water Really Conduct Electricity? Forces that hold the constituent particles togetherThe physical state (or phase) of any matter is determined by the forces that hold its constituent particles together, i.e., its intermolecular forces. Take solids, for example. The constituent molecules that make up solids are held together by strong intermolecular forces in a rigid structure (a lattice). This imparts a number of physical properties to solids, including strength, rigidity, incompressibility and others.
In liquids, the intermolecular forces are weaker than solids, which is why liquids don’t have a definite shape of their own. Instead, they take the shape of the container in which they’re kept. Being a solid (and thus having a lattice structure), a sugar cube’s shape and appearance are attributed to the strong attractive forces that hold its constituent particles together. However, when the cube comes in contact with water, these forces are meddled with and the cube loses its shape, quickly disintegrating. You see, a sugar molecule consists of hydroxyl groups (OH) that readily make hydrogen bonds with the water molecules surrounding them. Now, one thing you should know about hydrogen bonds is that they’re very strong. In fact, they are one of the strongest intermolecular attractions in nature, only weaker than ionic and covalent bonds. These bonds are also stronger than the intermolecular forces holding the molecules in the lattice shape of the cube. As a result, the water molecules surround the tiny sugar cubes, knock them free from the attractive forces of the surrounding molecules and pull them into the solution. This process goes on for a while (depending on a few factors, such as the temperature of water, saturation, stirring etc.) until the cubes diffuse and finally disappear after fully separating from the main structure. Why does stirring help to dissolve sugar faster in water?If you simply drop a lump of sugar in a glass filled with water, the dissolution will be notably slower, as water molecules can only come in contact with the particles on the surface. However, when you stir a solution, you essentially bring more particles in contact with the water, making the process of dissolution significantly faster.
Another question that befuddles many is whether the dissolution of sugar is a physical change or a chemical one. Note that it’s a physical change, because for it to be a chemical change, something new would need to be produced as a result of the dissolution. By the way, this doesn’t happen. All you get after dissolving sugar in water is a ‘sugary’ solution, no more and no less. The identity of the constituents remains unchanged. Next time you come across a curious kid asking about the sugar cubes that vanish when stirred, this information could come in pretty handy. Most of all, just remember not to wrap up the discussion by simply saying ‘sugar dissolves in water’. Suggested ReadingWas this article helpful? Bring Science Home A saturating science project from Science Buddies
Key concepts Chemistry Property of matter Solutions Solubility Introduction Background When you dissolve a soluble chemical in water, you are making a solution. In a solution the chemical you add is called the solute and the liquid that it dissolves into is called the solvent. Whether a compound is soluble or not depends on its physical and chemical properties. To be able to dissolve, the chemical has to have the capability to interact with the solvent. During the process of chemical dissolution, the bonds that hold the solute together need to be broken and new bonds between the solute and solvent have to be formed. When adding sugar to water, for example, the water (solvent) molecules are attracted to the sugar (solute) molecules. Once the attraction becomes large enough the water is able to pull individual sugar molecules from the bulk sugar crystals into the solution. Usually the amount of energy it takes to break and form these bonds determines if a compound is soluble or not. Generally, the amount of a chemical you can dissolve in a specific solvent is limited. At some point the solution becomes saturated. This means that if you add more of the compound, it will not dissolve anymore and will remain solid instead. This amount is dependent on molecular interactions between the solute and the solvent. In this activity you will investigate how much of various compounds you can dissolve in water. How do you think sugar and salt compare? Materials
Observations and results This is because each of these compounds has different chemical and physical properties based on their different molecular structures. They are all made of different chemical elements and have been formed by different types of bonds. Depending on this structure it is more or less difficult for the water molecules to break these bonds and form new ones with the solute molecules in order to dissolve them into a solution. Cleanup More to explore This activity brought to you in partnership with Science Buddies Discover world-changing science. Explore our digital archive back to 1845, including articles by more than 150 Nobel Prize winners. Subscribe Now! |