Usually the increase in temperature decreases the viscosity of a liquid due to weakness of intermolecular attractions but some mixtures show an increase in viscosity with the rise of temperature as egg (proteins).
Lowering the temperature the viscosity is higher.
viscosity decreases with increase in temperature
Viscosity is the resistance of a liquid to flow. When temperature decreases Viscosity generally increases. Viscosity generally decreases when the temperature increases.
The viscosity increase when the temperature decrease.
Usually the increase in temperature decreases the viscosity of a liquid due to weakness of intermolecular attractions but some mixtures show an increase in viscosity with the rise of temperature as egg (proteins).
Generally, an increase in temperature leads to a decrease in viscosity of liquids. This is because higher temperatures cause the molecules in the liquid to move more and spread out, resulting in lower resistance to flow.
Temperature measures the speed of random thermal motion on the atomic and molecular level. When sub-microscopic particles are moving faster, the liquid as a whole will be more fluid and less viscous.
The viscosity of a fluid can vary based on factors such as temperature, pressure, and composition. Generally, an increase in temperature decreases viscosity by reducing friction between molecules, while an increase in pressure can either increase or decrease viscosity depending on the nature of the fluid. Additionally, adding solutes or changing the molecular structure of the fluid can also affect its viscosity.
Anemia can lead to decrease blood viscosity, which may lead to heart failure. Other factors influencing blood viscosity include temperature, where an increase in temperature results in a decrease in viscosity. This is particularly important in hypothermia, where an increase in blood viscosity will cause problems with blood circulation.
Liquid's viscocity depends on temperature. As a rule, viscosity drops with the increase of temperature.
Temperature is inversely proportional to the dynamic viscosity, which is the measure of a fluid's resistance to flow. As temperature increases, the dynamic viscosity of a fluid typically decreases. However, for some fluids, the kinetic viscosity, which is dynamic viscosity divided by the fluid density, can increase with temperature due to changes in the fluid's density.
As temperature increases viscosity decreases.