This friction can damage engine parts and cause them to wear faster. Engines contain many moving parts that have the potential to rub against each other, creating friction. However, essentially, it keeps the engine running smoothly. Engine oil has a diverse range of vital purposes. Engine OilĪs a vehicle owner, you might have been asked by a mechanic to change the engine oil whenever you take your vehicle for service. Temperature also changes the viscosity of honey, and heat is often used to make the honey easier to process. If the concentration of water is increased, honey becomes less viscous. Honey’s viscosity depends upon the amount of water and the type and amount of sugar it contains. For example, removing the honey from the honeycomb, filtering, and putting it into jars are all difficult to do if it is too thick and sticky. Sometimes it becomes difficult to extract and process honey owing to its high viscosity. Knowing the viscosity of honey is important. Apart from this, honey is also known for its viscosity. It is among the few insect-derived natural products that have industrial, nutritional, as well as therapeutic values. It has long been acknowledged for its nutritional and medicinal benefits, with evidence of its extraction depicted on various rock paintings that date back almost 8000 years. Long before cane sugar was available for providing us with a sweet flavor, and before the synthesizing of corn into high-fructose corn syrup, raw honey was one of the sweetest foods humans could enjoy.
Let’s discuss a few examples of viscosity in daily life. Viscosity is a key property in the development of any application that involves fluid flow. Therefore, with the increase in temperature, viscosity increases in gases and decreases in liquids. However, it is important to realize that viscosity in gases arises due to the random motion of the molecules when it is endowed with macroscopic motion rather than a frictional force between any two adjacent layers, as in the case of liquids. The effects of viscosity are not only limited to liquids only but apply to gases also. Just like in the case of friction between moving solids, viscosity determines the energy required to make a fluid flow. At a molecular level, viscosity is a result of the interactions between the different molecules in a fluid. All real fluids (except superfluids) have some resistance to stress, but a fluid that has no resistance to shear stress is known as an ideal fluid or inviscid fluid. However, since the viscosity of most fluids is below 1 Pa-s, the millipascal-second (mPa-s) is often used instead. The SI unit for viscosity η is the Pascal-second (Pa-s), which corresponds to the force (N) per unit area ( ). Therefore, more viscous liquids have a lower rate of flow. The negative sign signifies that the viscous force is directed against the velocity gradient. Here, F denotes the viscous force acting on area A and du/dy is the velocity gradient along the positive y-direction. Mathematically, for a small velocity gradient, we can write: It is quantitatively expressed in terms of the coefficient of viscosity, η, which is defined as the tangential for a unit velocity gradient (the difference in velocity between adjacent layers of the fluid) that exists in the direction perpendicular to the direction of the motion. In technical terms, viscosity is a measure of the resistance to the flow that a liquid offers when it is subjected to shear stress. For instance, honey is thicker than water because it is more viscous. In other words, viscosity corresponds to the “thickness” of a liquid. It is defined as the property of a liquid by virtue of which an opposite force (internal friction) comes into play between different layers whenever there is a relative motion between these layers of the liquid. Such behavior of a liquid in the flow is described by an intrinsic property called viscosity. Do you remember the first time you used a honey bottle, perhaps for green tea, or something else? You must have noticed when the honey bottle is nearly empty, and it takes very long for honey to reach the mouth of the bottle.