hydrostatic pressure
Filtration is when fluids and solutes flow down their pressure gradient across a membrane such as in the glomerulus of the kidney.
It means its time to take your car to the shop.
Pressure
Fluids can exert forces, such as pressure and buoyancy, on objects submerged in them. They can also flow and carry substances within them, like nutrients in blood or pollutants in water. Additionally, fluids can transmit energy through mechanisms like fluid power systems.
This is a multi-faceted question. In biological terms, fluids flow across selectively permeable membranes due to concentration gradients. The fluid will flow to the side witht he greater solute concentration (or osmolarity).
Filtration forces membranes through the application of pressure, which drives a fluid through a semi-permeable membrane, allowing smaller particles or solutes to pass while retaining larger ones. This process separates components based on size or charge, depending on the membrane's characteristics. Common applications include water purification and desalination, where impurities are removed, leaving clean water.
Fluids and gases have weak intermolecular forces that allow particles to move past each other, enabling flow. In contrast, solids have stronger intermolecular forces that hold particles in fixed positions, preventing flow. This difference in intermolecular forces allows fluids and gases to flow easily, while solids maintain their rigid structure.
Capillary Hydrostatic Pressure
temperature, pressure or added fluids
a. moving molecules that exert forces.
Energy can move through different processes such as conduction (transfer through direct contact), convection (transfer through fluids), and radiation (transfer through electromagnetic waves). In all cases, energy moves from higher to lower areas of concentration in order to achieve equilibrium.
There are some forces in nature whose ranges are very small. So small that they can only be felt at the microscopic level. One such forces is the nuclear forces. these forces are called nuclear forces because they are only dominant at the nuclear level.