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Can air displace a fluid?
Yes, if a fluid is contained in a vessel and air is introduced, the air can displace the fluid by pushing it out of the vessel or causing it to rise to the top of the vessel. This displacement occurs because air is less dense than most fluids, causing it to rise above the fluid.
Circulating fluid pumped through a system of vessel?
The circulating fluid is pumped through the vessel system to transport heat, chemicals, or other materials efficiently. By continuously moving the fluid through the system, it helps maintain consistent temperature or chemical composition, ensuring proper functioning of the vessel.
What is the difference between vessel and drum in chemical engineering or petroleum industry?
I think a vessel is containing a fluid under high pressure whereas a drum contain a fluid with no or low pressure.
What causes the transfer of materials between capillaries and tissue fluid?
As blood enters the capillary bed on the arteriole end, the blood pressure in the capillary vessel is greater than the osmotic pressure of the blood in the vessel. The net result is that fluid moves from the vessel to the body tissue.At the middle of the capillary bed, blood pressure in the vessel equals the osmotic pressure of the blood in the vessel. The net result is that fluid passes equally between the capillary vessel and the body tissue. Gasses, nutrients, and wastes are also exchanged at this point.On the venue end of the capillary bed, blood pressure in the vessel is less than the osmotic pressure of the blood in the vessel. The net result is that fluid, carbon dioxide and wastes are drawn from the body tissue into the capillary vessel.
Blood hydrostatic tends to force fluid out of the capillaries?
Pressure is created by moving particles (fluid) bumping up against surfaces. In the case of blood hydrostatic pressure, blood is about 55% plasma and that plasma doesn't just flow down the length of the blood vessel but also pushes up against the sides of it creating blood hydrostatic pressure. Now there are different kinds of capillaries but in general they are all quite leaky. When you have fluid pressure pushing up against a leaky wall, some of that fluid is going to get out.
What happened to the rate as the right vessel radius was increased?
As the right vessel radius increased, the rate of flow in the vessel also increased. This is because as the radius of a vessel increases, the cross-sectional area for fluid flow also increases, allowing more fluid to pass through per unit of time. This relationship is described by Poiseuille's law for laminar flow in a cylindrical vessel.
The fluid in equilibrium enclosed by a vessel exerts pressure equally in all directions?
This statement is in accordance with Pascal's Law, which states that a fluid in equilibrium will exert pressure equally in all directions within a vessel. This means that the pressure exerted by a fluid at any point in a container will be transmitted undiminished in all directions throughout the fluid.
In the human anatomy what is considered a vessel?
A vessel is anything that contains a fluid. There are many in the body. The most numerous are the blood vessels that carry blood, but there are also lymphatic vessels that carry lymph. The spleen is an organ that is considered a vessel, and so is the cisterna chyli which holds lymphatic fluid. All of these are considered vessels.
Why the vessel is floating?
A vessel floats due to the principle of buoyancy, which states that an object submerged in a fluid experiences an upward force equal to the weight of the fluid it displaces. When the weight of the vessel is less than the weight of the water it displaces, it will float. Additionally, the design and shape of the vessel create a sufficient volume to displace enough water, allowing it to stay afloat despite its weight. This balance between buoyancy and gravity is what keeps the vessel on the surface.
If vessel length increases then resistance will?
Yes, theoretically there is more surface area inside the vessel to create friction and slow the fluid down, also there will be more fluid in the vessel at any given moment so its inertia will be greater thus increasing it's "resistance".
When heat is transferred by convection what rises?
The warmer fluid at the bottom of the vessel being heated.
Fluid collects within the spaces between cells secondary to lymph vessel obstruction?
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