Hmmm.. what is "stokes law graph" ?
If Stokes Force = Fs, r=radius of a tube, v=velocity of a particle
The formula of viscosity is
Fs=6.pi.viscosity.r.v
Then viscosity= Fs/(6.pi.r.v)
Law of cosines
since v is propotional to i it is a straight line
there are 3 laws of arithmetic. These are Associative law, Distributive Law and Cummutative law.
son-in-law
certain fluid at 10 bar is contained in cylinder behind a piston ,the initial volume being 0.05 m3 calculate the work done by the fluid when it expands reversibly i) according to a law P=(A/ V2 ) -(B/ V) ,to a final volume of 0.1 m3 and a pressure of 1bar,where A and B are constants.Answer(19200 j)
The graph will be a straight graph if you plot r2 against v. If we calculate the gradient of the line this is giving us the value of the constant "k" from the equation: k = v r2 With this calculated value of "k" we can calculate the value of the viscosity of the liquid using: Viscosity = 2(Denisity of sphere - Denisty of Glycerol) g 9k
Einstein's law of viscosity is stated by the equation u = 1 + 2.5 (volume fraction of solid particles). This equation is only used to calculate the relative viscosity of a slurry of fine particles in low concentrations.
Suspending agents help lower sedimentation rate of particles in suspension. This works by increasing viscosity of liquid vehicle, and slowing down settling in accordance to Stokes Law.
Posseuilie's law
Yes, the coefficient of viscosity for Mercury can be calculated using Stoke's Law.
a graph law graph shows the relationship between pressure and volume
The fluid flow of viscosity.
The graph of Boyle's law is Rectangular Hyperbolic.
There is no 'point on a graph' which represents Ohm's Law. It's the shape of the graph that determines whether Ohm's Law applies.If a graph is drawn showing the resulting variation in current for changes in voltage then, for Ohm's Law to apply, the graph must be a straight line.If the resulting graph is not a straight line, then Ohm's Law doesn't apply.
McNeill Stokes has written: 'Construction law for owners and builders' -- subject(s): Construction contracts, Construction industry, Law and legislation 'Construction law in contractor's language' -- subject(s): Construction contracts
If you move your finger in castor oil you would feel some dragging force against your moving finger. This is due to the viscous nature of the fluid. Same way if a small steel ball falls through castor oil kept in a jar then there will be a dragging force opposing the falling ball. This force is got by the formula 6 pi a eta v. Here pi is 3.14 and a - the radius of the ball. eta - the coefficient of viscosity of the castor oil and v - the velocity of the ball. This is known as Stokes's law of coefficient of viscosity.
These two laws they are similar. But Hooke's Law is a law which is used in Solid Mechanics, and Newton's Law of Viscosity is the one which is used in Fluid Dynamics.