Reynolds number tells you what the flow is doing.
A Reynolds number of 0-2000 is laminar flow
2000-4000 is the transition (where both laminar and turbulent flow is possible)
4000+ is fully turbulent flow
The most simple way to express this is in solid mechanics is. Mass = Density x Volume The equation above is just for mass, it's very different with talking about Fluid Statics, or Fluid Dynamics.
Semen contains sperm, the male reproductive cells. Female discharge is a fluid that doesn't contain any reproductive cells. True but how can you deteremine the difference if you found a fluid?
A Brookfield viscometer is used to measure the viscosity of a fluid. Viscosity refers to a fluid's tendency to resist deformation when pressure is applied to it. For example, honey is a very viscous fluid while water is not very viscous.
1) determine the density of the first fluid 2) determine the density of the second fluid step 1) and step 2) are easy. just measure the volume and the mass and use the formula: "density = mass/volume" you can also... ~put the liquids in beakers (same amount in both) ~get a little marble ~drop the marble in one of the beakers ~use a timer to time how long it takes the marble to reach the bottom. ~take the marble out or if you have another marble use that ~drop the marble into the second fluid ~time how long it takes to reach the bottom ~the fluid with the less time should be the one that is denser ( you don't have to use marbles, you can use any other two object that are and weight the same).
Oedema could be caused by a number of reasons: lack of proper fluid drainage from your lymphatic vessels, cancer, Cushing's disease, swollen lymph nodes or fat deposits etc.
You can learn about Reynold's number from a variety of different sources. You can go to a library or a book store and pick up a book on fluid dynamics. You can also read forums and blogs on the subject. Your local college may also have courses in engineering.
Journal of Fluid Mechanics was created in 1956.
Victor L. Streeter has written: 'Handbook of fluid dynamics' -- subject(s): Fluid dynamics 'Fluid dynamics' -- subject(s): Fluid dynamics 'Fluid Dynamics (Aeronautics Science Publications)' 'Fluid mechanics' -- subject(s): Fluid mechanics 'Fluid mechanics' -- subject(s): Fluid mechanics
Fluid mechanics refer to the branch of physics that deals with fluid and other forces on them. This is sub-divided into fluid statics and fluid kinematics.
Fluid's lack of rigidity contributed to scientist's creation of the area of fluid mechanics.
Alan Mironer has written: 'Engineering fluid mechanics' -- subject(s): Fluid mechanics
H. Yamaguchi has written: 'Engineering fluid mechanics' -- subject(s): Fluid mechanics
Soil mechanics is a discipline in which application of laws of mechanics and fluid mechanics are applied where as in mechanics laws of physics are applied
Victor Lyle Streeter has written: 'Fluid mechanics' -- subject(s): Fluid mechanics
Mechanics Electromagnetism Optics Thermodynamics Fluid mechanics
Mechanics Electromagnetism Optics Thermodynamics Fluid Mechanics
Fluid mechanics is the study of fluids and the forces on them. (Fluids include liquids, gases, and plasmas.)A longer answerFluid mechanics is a branch of physics which deals in the study of Properties of Fluid(that is gases or liquids). Fluid mechanics broadly classified in to two types:1. Fluid statics2. Fluid dynamicsFluid statics deals with the properties of fluid at rest and fluid dynamics deals with the properties of fluids in motion. Fluid dynamics is further divided in to two branches a:1. Hydro dynamics2. Aero dynamicsHydro dynamics deals with the properties of liquids in motion , where as Aero dynamics delas with the properties of gases in motion.Computational fluid mechanics is another branch of fluid mechanics where it uses numerical methods and algorithms to solve the problems related to fluid flows.