as concentration increases, viscosity increases
The relationship depicted in the temperature vs viscosity graph is that as temperature increases, viscosity decreases.
The relationship between temperature and the viscosity of water is that as temperature increases, the viscosity of water decreases. This means that water becomes less thick and flows more easily at higher temperatures. This relationship is shown in the viscosity of water table, where the viscosity values decrease as the temperature increases.
ferric chloride is a solid compound so the term viscisity is meaning less.... but the viscosity of its aquous solution depends upon its concentration ..as concentration increases the viscosity also increases.....
The relationship between flow rate and viscosity is typically nonlinear. As viscosity increases, flow rate decreases. This relationship is often visualized as a curve showing the decrease in flow rate as viscosity increases.
There is an inverse relationship between temperature and viscosity. That is, as the temperature increases, the viscosity decreases (the fluidity increases. However, the exact nature of the relationship is far from straightforward.
The viscosity of sodium sulfite solution at 20 degrees Celsius can vary depending on its concentration. Typically, sodium sulfite solutions have low to moderate viscosities at this temperature due to their liquid state. Additional factors such as the specific concentration and presence of impurities can also influence the viscosity of the solution.
As temperature increases viscosity decreases.
Some fluids are more denser than other fluids. For example, shampoo is more denser than Ketchup or oil or water. Therefore, it has a higher viscosity! The thick/denser/sticker a fluid is the higher the concentrtation of viscosity. Here is a range of some fluids put from high viscosity to low concentration of viscosity: 1: Shampoo 2: Ketchup 3: Corn oil 4: Water Water has a really low concentration of viscosity.
The viscosity of bentonite varies depending on factors such as concentration, temperature, and additives. Generally, bentonite has a high viscosity due to its ability to swell and form a gel when dispersed in water. The viscosity measurements are typically taken using a viscometer.
viscosity is inversily change with the conductivity
they are two truly different concepts. The density is a measurement of the molecular weight of the composition. In simpler words, density = number of molecules x molecular weight/volume occupied, while the viscosity is a measurement of the inter-molecular forces and molecule shapes. Viscosity tells you the "friction" between two layers of the given fluid, while density varies slightly with temperature, viscosity changes rapidly. Both density and viscosity decreases with temperature, but viscosity mostly has an exponential relationship with temperature. Density holds a linear relationship. This temperature viscosity relationship is the base of the auto lubricant technology. Viscosity and density are two different physical phenomena depending on totally different aspects. The common misconception of "heavier fluids are more viscos" is to be omitted.
Excess viscosity refers to the additional viscosity observed in a solution beyond what would be expected based on the individual viscosities of its components. It is often due to interactions between the molecules or particles in the solution, leading to a temporary increase in viscosity. Excess viscosity can be influenced by factors such as temperature, concentration, and molecular weight of the components.