B Knudsen Flow: High School Student Q&A

AI Thread Summary
Knudsen flow occurs when the mean free path of gas molecules is comparable to or smaller than the size of the flow channel, leading to a situation where gas particles collide more with the container walls than with each other. This flow is characterized by low pressure and cannot be modeled as viscous flow due to the lack of significant molecular collisions. Creating Knudsen flow can involve using small openings or channels, but simply digging a hole may not suffice to achieve the desired conditions. The thickness or radius of pores in membranes can influence the sieving of different molecules, as they relate to the channel size affecting flow behavior. Understanding the relationship between channel size and air pressure is crucial for generating ultra-vacuum conditions.
Chain Shawn
Messages
3
Reaction score
0
I am a high school student trying to carry out an experiment about fluid. Thus I am studying Knudsen flow and come up with following questions.

1. How can a Knudsen flow occurs?
2. Can I simply dig a small hole on a board and make Knudsen flow?
3. What the difference between viscous flow, Knudsen flow and moduleur flow?
4. How can such flow sieve different molecules?

( I’m not good at English. Sorry for the poor structure of this thread.😥
 
Physics news on Phys.org
jedishrfu said:
What have you found so far on Knudsen flow?
It results from the situation that the mean free path becomes equal or smaller than the channel’s size. And if Knudsen number(mean free path divided by diameter of flow channel) becomes higher, it will turn to molecular flow and enter ultra vacuum.

The cause and effect confuse me.I couldn’t get the causal relationship between channel’s size and air pressure. Does the Knudsen flow means that pipes size can generate ultra vacuum condition?

And I see some applications using pores on membrane to sieve different molecules, but I’m not sure whether the thickness or radius of the pore refers to the channel’s size.
 
In Knudsen flow, the fluid behavior can no longer be modeled as a viscous continuum, since the laws of viscous flow are based on significant numbers of molecular collisions. Knudsen flow occurs when the pressure of the gas is made very low.
 
Thread 'Gauss' law seems to imply instantaneous electric field propagation'

Thread 'Gauss' law seems to imply instantaneous electric field propagation'

Imagine a charged sphere at the origin connected through an open switch to a vertical grounded wire. We wish to find an expression for the horizontal component of the electric field at a distance ##\mathbf{r}## from the sphere as it discharges. By using the Lorenz gauge condition: $$\nabla \cdot \mathbf{A} + \frac{1}{c^2}\frac{\partial \phi}{\partial t}=0\tag{1}$$ we find the following retarded solutions to the Maxwell equations If we assume that...
View full post »

Thread 'Do electron density waves accompany EM waves in coaxial cables?'

Maxwell’s equations imply the following wave equation for the electric field $$\nabla^2\mathbf{E}-\frac{1}{c^2}\frac{\partial^2\mathbf{E}}{\partial t^2} = \frac{1}{\varepsilon_0}\nabla\rho+\mu_0\frac{\partial\mathbf J}{\partial t}.\tag{1}$$ I wonder if eqn.##(1)## can be split into the following transverse part $$\nabla^2\mathbf{E}_T-\frac{1}{c^2}\frac{\partial^2\mathbf{E}_T}{\partial t^2} = \mu_0\frac{\partial\mathbf{J}_T}{\partial t}\tag{2}$$ and longitudinal part...
View full post »
Thread 'Recovering Hamilton's Equations from Poisson brackets'

Thread 'Recovering Hamilton's Equations from Poisson brackets'

The issue : Let me start by copying and pasting the relevant passage from the text, thanks to modern day methods of computing. The trouble is, in equation (4.79), it completely ignores the partial derivative of ##q_i## with respect to time, i.e. it puts ##\partial q_i/\partial t=0##. But ##q_i## is a dynamical variable of ##t##, or ##q_i(t)##. In the derivation of Hamilton's equations from the Hamiltonian, viz. ##H = p_i \dot q_i-L##, nowhere did we assume that ##\partial q_i/\partial...
View full post »

Similar threads

B Fluid Flow Deflection Bending Ahead of Airfoil?
Replies
7
Views
2K
I Work - Energy Principle Application to Fluid Flow
Replies
35
Views
4K
B What is Mass?
Replies
23
Views
2K
I Work - Energy Principle Application to Fluid Flow
Replies
48
Views
5K
Doublet flow in Fluid Dynamics between two spheres or cylinders
Replies
0
Views
1K
I Variation of Torriceli's theorem?
Replies
3
Views
1K
Calculate Flow Rate of a Syringe: Poiseuille's & Bernoulli's Laws
Replies
5
Views
16K
Best way to learn fluid mechanics while in high school
Replies
7
Views
2K
B Beam of air: Extending the range of a fan
Replies
17
Views
3K
Bernoulli equation and parallel pipe branch
Replies
31
Views
4K

Hot Threads

Recent Insights

Back
Top