No. Gas flows from High to Low. This can be demonstrated by blowing up a balloon and then releasing the open end. The gas within the balloon is at a higher pressure due to the stretched rubber attempting to resume its original size. When you release the open end, the high pressure gas escapes to the low pressure outside of the balloon. Gas, like water, always seeks to achieve equilibrium.
Yes.
Fluids as in water, the ocean does this all the time.
This in combination with alignment of the moon and other planets does some times cause extremely high tide compared with normal tide. The circumstances must be quite special though for the water to rise much by being low pressure alone, but in combination with other factors, this is definitely noticeable.
no its high pressure to low pressure cos when the heart pumps the blood, the pressure is most and thicker veins have to be present to accomodate such a high pressure. Gradually the pressure decreases as if put it in terms of physics, most kinetic energy is converted to other forms of energy thus slowing down and pressure is lesser.
Hope that my answer is correct.
No, it is the opposite. Think of a low-pressure pocket as a vacuum cleaner: it is creating a vacuum, thereby sucking in the outside (higher pressure) air. Therefore, the flow is from high pressure to low pressure.
A fluid will flow from a region of higher pressure to one of low pressure because of diffusion.Diffusion is the intermixing of matter like a deodorant's smell can be smelled from one corner of a room to the other or likewise from long distances.
The more kinetic energy a gas contains the faster is the process of diffusion.
Water, as with most other substances, will flow from where it has a higher pressure to where its pressure is lower.
by adding energy in increase the pressure.
Basically any fluid will naturally flow from high to low pressure. Water is an example.
For more info:
http://en.wikipedia.org/wiki/Pressure_drop
temperature is not a liquid.
It rises when the pressure rises if thats what you mean
Static pressure is the pressure exerted by fluid in all directions, when it is in rest. Stagnation pressure is the sum of static and dynamic pressure of fluid in motion. Dynamic head is given by (velocity)^2/2*g.
Interestingly, according to the Bernoulli principle, when air flow is increased, air pressure is actually decreased! This same principle can be applied to any sort of fluid flow, though it the main principle applies only to a nonconducting fluid and an inviscid flow.
Because of the pressure gradient force and the Coriolis Force. Air is flowing away from the center of high pressure due to the pressure gradient that is formed by having higher pressure in the center and lower pressure outside. As it flows away, it is deflected to the right (in the northern hemisphere). This causes an apparent clockwise flow.
That means that it can flow. The term "fluid" is used in general for non-solid materials, materials that can flow, such as liquid, gas, plasma, etc.
Convection currents are the flow of fluid (liquid or gas) caused by the molecular motion resulting from the transfer of heat through the fluid. In meteorology it is the vertical movement of atmospheric gases caused by heat, atmospheric pressure, condensation of water vapor, and other factors.
a difference in pressure (differential pressure). For example putting air in a tire (I know its pneumatics and not hydraulics but it is the same concepts.) the air tank is holding 110 lbs of pressure and when you connect the hose to a tire with 25 lbs the air is going to flow from the tank to the tire. or from high pressure to low pressure.
Water, like any fluid, flows from where its pressure is higher to where its lower.
It is a difference in pressure
The longer the tube length, the higher the resistance to fluid flow due to increased surface area for friction. This increased resistance can result in slower fluid flow rates and higher pressure drops along the length of the tube.
at any altitude, fluids flow from areas of higher pressure to some areas of lower pressure.
Yes, static pressure plays a role in determining the flow rate of a fluid in a closed system. A higher static pressure typically results in a higher flow rate, while a lower static pressure results in a lower flow rate. This relationship is governed by Bernoulli's principle, which states that an increase in pressure leads to a decrease in velocity and vice versa.
Gravity creates a vertical pressure gradient within a fluid due to the weight of the fluid above a specific point. This pressure gradient causes the fluid to move from higher to lower pressure areas, thereby influencing fluid flow and distribution. In the case of bodies of water, gravity also contributes to hydrostatic pressure at different depths.
The pressure needed to stop osmosis is called osmotic pressure. It is the minimum pressure required to prevent the flow of solvent from a region of lower solute concentration to a region of higher solute concentration across a semipermeable membrane.
Pressure plays a crucial role in the flow of fluid by determining the direction and speed of the flow. Fluids flow from high-pressure areas to low-pressure areas, creating a pressure difference that drives the movement. The relationship between pressure and flow rate is described by principles like Bernoulli's equation.
Any fluid does.
Increasing the driving pressure in a system, such as in a fluid flow system, will result in an increase in the flow rate of the fluid. This is because a higher driving pressure provides more force to push the fluid through the system. However, it is important to ensure that the system can handle the increased pressure to prevent any damage or failures.
pressure gradient is