Factors that affect viscosity of incompressible Newtonian fluid?

In summary, the factors that affect the viscosity of incompressible Newtonian fluid are temperature, pressure, and shear rate. Temperature and pressure have an inverse relationship with viscosity, while shear rate does not affect the viscosity of Newtonian fluids. However, for non-Newtonian fluids, the viscosity can vary with shear rate as well.
  • #1
v_pino
169
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What are the factors that affect viscosity of incompressible Newtonian fluid?

Here is what I think:

Temperature:
When we increase the temperature of a fluid (controlled volume) the frequency ofintermoleculer collisions increases. Does this mean viscosity decreases? And if so, does density decrease?

Pressure:
Does an incompressible fluid mean that it cannot compress under pressure but can increase in volume if pressure decreases? If so, increasing the pressure (constant volume) should increase the temperature, and in turn, decrease viscosity. And decreasing the pressure will increase the volume (since it volume is not constant when pressure decreases). Therefore, should viscosity remain the same?

There's this passage I read about viscosity which is a little confusing:
http://hypertextbook.com/physics/matter/viscosity/

thanks
 
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  • #2


At ordinary pressure the viscosity of gases increases with the increase in temp..and the viscosity of most fluids decreases..the reason being at an increased temperature the frequency intermolecular collision in gases increases..which increases the viscosity as the flow reduces..for liquids at an increased temp the molecules get energy to break the intermolecular forces of attraction...hence the flow increases..
 
  • #3


v_pino said:
What are the factors that affect viscosity of incompressible Newtonian fluid?

<snip>

There's this passage I read about viscosity which is a little confusing:
http://hypertextbook.com/physics/matter/viscosity/

thanks

First things first- an incompressible fluid means the change of volume (equivalently, density) with pressure is zero. That's unconnected with changes of density with temperature.

Second- that website is ok, but the fluids discussed (honey, glass, etc) are not Newtonian fluids, which can cause confusion. There is also kinematic and dynamic versions of viscosity, one is corrected for fluid density. If you like, viscosity is a fluid version of friction.

A Newtonian fluid is defined as one that the viscosity does not change with rate of shear. It is allowed to vary with any other property, AFAIK. There is no theory worth anything yet that can predict the viscosity of a real fluid (again, AFAIK). There are other fluids (Bingham, shear thickening, shear thinning, lots more) where the viscosity does depend on shear rate.

For example, toothpaste is approximately a Bingham fluid. If you do not squeeze the toothpaste tube, the toothpaste does not flow (very high viscosity). Squeezing the tube and pushing it out increases the shear rate, the viscosity goes down, and the toothpaste comes out of the tube. Then it again comes to rest on the toothbrush since the shear rate dropped.
 

FAQ: Factors that affect viscosity of incompressible Newtonian fluid?

What is viscosity?

Viscosity is a measure of a fluid's resistance to flow. It is a property that describes the internal friction within a fluid and is affected by factors such as temperature, pressure, and the type of fluid.

How does temperature affect the viscosity of an incompressible Newtonian fluid?

In general, as temperature increases, viscosity decreases. This is because higher temperatures cause molecules in the fluid to move more quickly, reducing the internal friction and making the fluid less viscous. However, this relationship may not hold true for all fluids, as some may exhibit non-Newtonian behavior.

What role does pressure play in the viscosity of an incompressible Newtonian fluid?

Pressure has a minimal effect on the viscosity of an incompressible Newtonian fluid. This is because the density of an incompressible fluid remains constant, regardless of changes in pressure. However, at extremely high pressures, the viscosity of some fluids may increase due to increased molecular interactions.

How does the type of fluid affect its viscosity?

The type of fluid can have a significant impact on its viscosity. For example, thicker and more complex fluids, such as oils or syrups, tend to have higher viscosities compared to thinner fluids like water. Additionally, some fluids may exhibit non-Newtonian behavior, where their viscosity changes with the rate of shear or pressure applied.

How can the viscosity of an incompressible Newtonian fluid be measured?

The most common method for measuring the viscosity of a fluid is through a viscometer, which measures the time it takes for a fluid to flow through a capillary tube under a given pressure. Other methods include rotational viscometry, where the torque required to rotate a cylinder immersed in the fluid is measured, and falling ball viscometry, where the time it takes for a ball to fall through the fluid is measured.

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