calculate time equivalent to 41 oscillation t=41*(2*pi)/(w1)
where w1 is damped oscillation freq w1^2=w0^2-(b/2m)^2
then use amplitude equation A=a*exp(-b/2m*t)
NOw i know the proof of stokes's law,poiseuille equation.
I never believed that the proof would be such a general one(u only need to know Newton's law).
All book except one(physical fluid mechanics by d.j tritton)were providing proof after digging into 100s of pages of fluid dynamics ...
NOw i know the proof of stokes's law,poiseuille equation.
I never believed that the proof would be such a general one(u only need to know Newton's law).
All book except one(physical fluid mechanics by d.j tritton)were providing proof after digging into 100s of pages of fluid dynamics .
thanks...
NOw i know the proof of stokes's law,poiseuille equation.
I never believed that the proof would be such a general one(u only need to know Newton's law).
All book except one(physical fluid mechanics by d.j tritton)were providing proof after digging into 100s of pages of fluid dynamics .
thanks...
Apart from "Mechanics of Continuous Media",i have good understanding of other undergraduate physics topics as well.
I do not have enough time to go through the whole of fluid dynamics.
i want to know only 3 things in Mechanics of Continuous Media fo my exam.
(a) proof of stokes's law,poiseuille...
I have decent knowledge of taylor series.
Apart from "Mechanics of Continuous Media",i have good understanding of other undergraduate physics topics as well.
I do not have enough time to go through the whole of fluid dynamics.
i want to know only 3 things in Mechanics of Continuous Media
(a)...
I have decent knowledge of taylor series.
Apart from "Mechanics of Continuous Media",i have good understanding of other undergraduate physics topics as well.
I do not have enough time to go through the whole of fluid dynamics.
i want to know only 3 things in Mechanics of Continuous Media
(a)...
Homework Statement
Prove that pressure drop (ΔP) of a fluid, in laminar flow, through a cylindrical tube is given by
ΔP=(8QμL)/π(r)^4
where
Q = volumetric flow rate
μ = viscosity,
L = tube length, in
R = tube radius, in
Homework Equations
please do not use dimensional...
Homework Statement
Derive an expression for frictional force
acting on a spherical objects of radius R
moving with velocity V
in a continuous viscous fluid of fluid's viscosity η .
Homework Equations
please do not use dimension analysis to prove.
The Attempt at a Solution