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What force causes the bulk flow of fluids (gases and liquids) in a system?
The force that causes the bulk flow of fluids in a system is typically pressure difference. This pressure difference drives the movement of fluids, such as gases and liquids, from areas of high pressure to areas of low pressure.
How fluids handle pressure?
Fluids handle pressure by transmitting it evenly in all directions. This is due to the principle known as Pascal's Law, which states that pressure applied to a confined fluid is transmitted undiminished in every direction throughout the fluid. This allows fluids to exert force on the walls of their container and to flow from high pressure areas to low pressure areas.
What are some examples of viscous fluids and how do they behave under different conditions?
Viscous fluids include honey, syrup, and motor oil. These fluids have high resistance to flow and exhibit different behaviors under varying conditions. For example, they flow slowly at low temperatures and become less viscous when heated. Additionally, their viscosity can change with pressure and shear rate.
How does pressure flow from high to low in a closed system?
In a closed system, pressure flows from high to low due to the natural tendency of gases or fluids to move from areas of higher pressure to areas of lower pressure in order to reach equilibrium.
Which pressure is in excess and causes fluids to move from A to C?
Through oncotic pressure the body is able to hold water in the bloodstream. If this excess in pressure decreases, from conditions like liver disease, water will leak into surrounding organs and tissues preventing it from moving from point a to point c.
Three examples of fluids flowing from high pressure to low pressure?
Water flowing from a high pressure main water line to a low pressure faucet. Air rushing out of a pressurized tire when the valve stem is opened. Gasoline being pumped from a high pressure storage tank into a car's fuel tank.
Fluids create high or low pressure?
fluids create low pressure.
How do fluids move through a pressure difference?
Fluids flow from areas of high pressure to areas of low pressure.
What fluids flow?
a fluid naturally flows from an area of the high pressure to an are of low pressure.
What is the name of air flowing from a high pressure area to a low pressure area?
Wind
Fluids like air tend to move toward areas of high pressure?
Yes, fluid flow (such as air) follows the principle of pressure differentials, moving from areas of high pressure to low pressure to achieve equilibrium. This movement is what causes wind, as air flows from high to low pressure systems. Fluids will continue to move until pressure is balanced across all regions.
Do fluids like air tend to move toward areas of high or low pressure?
Fluids tend to move toward low pressure areas.
What force causes the bulk flow of fluids (gases and liquids) in a system?
The force that causes the bulk flow of fluids in a system is typically pressure difference. This pressure difference drives the movement of fluids, such as gases and liquids, from areas of high pressure to areas of low pressure.
How do pressure gradients affect bulk flow?
Pressure gradients drive bulk flow by creating a difference in pressure between two points, causing the movement of fluids from high pressure to low pressure areas. The greater the pressure gradient, the faster the bulk flow of fluids will occur.
What are some examples of fluids with a high viscosity?
Bitumen/pitch/tar. Quark-gluon plasma.
How fluids handle pressure?
Fluids handle pressure by transmitting it evenly in all directions. This is due to the principle known as Pascal's Law, which states that pressure applied to a confined fluid is transmitted undiminished in every direction throughout the fluid. This allows fluids to exert force on the walls of their container and to flow from high pressure areas to low pressure areas.
What is Flowing air responding to the difference between higher and lower pressure is responding to what?
Flowing air responds to the difference in pressure between higher and lower pressure areas by moving from high pressure to low pressure to equalize the pressure. This movement of air creates wind, which is the result of the pressure difference seeking equilibrium.
