What Is the Connection Between Viscosity and Shear Stress in Perfect Fluids?

AI Thread Summary
A perfect fluid is defined as one that cannot sustain shear stress, meaning that adjacent layers can move at different velocities without internal resistive stresses. This is expressed mathematically as p_{yx}=2μ˙ε_{yx}=0, indicating that viscosity (μ) is effectively zero. The confusion arises from the interpretation of the rate of angular deformation (˙ε_{yx}), which should not be zero in this context. Additionally, ideal fluids are considered a subset of perfect fluids, aligning with the textbook's definitions. Understanding these distinctions clarifies the relationship between viscosity and shear stress in perfect fluids.
better361
Messages
24
Reaction score
1
So the textbook I am reading says that a perfect fluid cannot sustain shear stress, or that p_{yx}=2\mu \dot \epsilon_{yx} =0, where \mu is the viscosity, and \dot \epsilon_{yx} is the rate of angular deformation. Then it says when \dot \epsilon_{yx} =0, this means that "two adjacent horizontal layers of a perfect fluid can move at different velocities without one layer affecting the other layer through internal resistive stresses." This seems to me, however, like what would happen if the viscosity were zero.

Can someone clear up my misconception?
 
Physics news on Phys.org
Viscosity is zero in a perfect fluid. The situation described is not ##\dot\epsilon_{xy}=0## but ##\neq 0##.

Edit: Why is \eps not a standard TeX command yet? :headbang:
 
  • Like
Likes Chestermiller
I think ideal fluids are a subset of perfect fluids, at least according to my book.
 

Attachments

  • perfect fluid.PNG
    perfect fluid.PNG
    63.1 KB · Views: 457
  • ideal fluid.PNG
    ideal fluid.PNG
    13.4 KB · Views: 455

Thread 'Why can't Solar panels be hemispherical, or a curved strip type?'

comparing a flat solar panel of area 2π r² and a hemisphere of the same area, the hemispherical solar panel would only occupy the area π r² of while the flat panel would occupy an entire 2π r² of land. wouldn't the hemispherical version have the same area of panel exposed to the sun, occupy less land space and can therefore increase the number of panels one land can have fitted? this would increase the power output proportionally as well. when I searched it up I wasn't satisfied with...
View full post »

Similar threads

A Stressing Over Stress Tensor Symmetry in Navier-Stokes
Replies
2
Views
2K
Shear in fluids: What is measured and called - strain?
Replies
7
Views
3K
Understanding Absolute Viscosity - shearing stress
Replies
3
Views
2K
Classical I need some self-contained introductory books on Fluid Mechanics
Replies
19
Views
5K
Shear Stress and Fluid Mechanics
Replies
3
Views
9K
How is shear stress related to shear rate in aerodynamic applications?
Replies
2
Views
2K
Transport phenomena -- Direction of shear stress
Replies
11
Views
5K
Shear stress on a tire from a puddle of water
Replies
1
Views
2K
Engineering How Does Cup Anemometer Design Utilize Fluid Mechanics Principles?
Replies
4
Views
2K
How Does Shear Stress Direction Relate to Fluid Flow on an Incline?
Replies
7
Views
5K

Hot Threads

Recent Insights

Back
Top