Therefore it is clear that Mercury fluid will correspond with this fluid. Solution: First calculate the dynamic viscosity using the following formula, using the given values, Mercury with dynamic viscosity 1.526 \(Pa\ s\) Water with dynamic viscosity 1 \(Pa\ s\)Īir with dynamic viscosity 0.018 \(Pa\ s\) According to its dynamic viscosity, to which one of these fluids corresponds? Q.1: A fluid with a shear rate of 0.5 per second, and the shearing stress 0.76 N per m². We measure Dynamic viscosity in the unit of Pascal second or \(Pa\ s\) Solved Examples In the form of the equation, we can write it as: Thus, we can express it as:ĭynamic viscosity = \(\frac \) Since dynamic viscosity is the tangential force required to move one horizontal plane of a fluid with respect to another. Viscosity is determined by measuring the force i.e. These instruments will rotate a probe in the liquid sample. The rotational viscometer is a popular instrument, used to measure the dynamic viscosity. Thus dynamic viscosity can be expressed as the tangential force per unit area required to move the fluid in one horizontal plane with respect to another plane, with a velocity of unit value while the fluid’s molecules maintain a unit distance apart. Therefore, the dynamic viscosity is the force needed by a fluid to overcome its own internal molecular friction so that the fluid can flow. The viscosity acts as an important fluid property during the analysis of liquid behavior and fluid motion near solid boundaries. This is a kind of tangential force that acts when one horizontal plane moves with another one. Shear stress in the fluid is possible due to the intermolecular friction exerted when layers of fluids attempt to slide over each other.ĭynamic Viscosity Formula for the fluid will define its internal resistance to flow due to some shearing force. The temperature of the sample or the frequency of. A sinusoidal stress is applied and the strain in the material is measured, allowing one to determine the complex modulus. It is most useful for studying the viscoelastic behavior of polymers. Also, the way it will move when it comes in contact with solid boundaries.Ī fluid’s viscosity is the measure of the resistance to its gradual deformation by tensile or shear stress. Dynamic mechanical analysis (abbreviated DMA) is a technique used to study and characterize materials. Viscosity is an important property of the fluid material and is useful to understand the fluid’s behavior. One way is to measure a fluid’s resistance to flow when an external force is applied and is the dynamic viscosity. It is not easy to find a lot of information on the differences between dynamic and kinematic viscosity. 2 Solved Examples Dynamic Viscosity Formula What is Dynamic Viscosity?
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