High water pressure.
Air pressure at sea level is considered high because the weight of the air above exert pressure on the surface. This pressure decreases as altitude increases due to the decrease in the weight of the air column above.
Tsunamis do not directly influence air pressure. Air pressure primarily depends on atmospheric conditions like temperature and humidity, which can be affected by weather systems like high and low-pressure areas, but not by tsunamis.
different air pressure...
Answer this question… What is injected into high pressure air
In areas of high pressure the air is being squeezed more by the air above it than it is in areas of lower pressure. So the air will tend to get pushed away from the high pressure area.
The water pressure in a tank system is directly related to the tank air pressure. The tank air pressure helps regulate the water pressure and overall performance of the system. If the tank air pressure is too low, the water pressure may drop, affecting the system's efficiency. Conversely, if the tank air pressure is too high, it can cause the water pressure to be too high, potentially damaging the system. Maintaining the correct balance between water pressure and tank air pressure is crucial for optimal performance of the water pressure tank system.
Water Pressure is higher because of it's molecular weight as compared to air.
Air pressure at sea level is considered high because the weight of the air above exert pressure on the surface. This pressure decreases as altitude increases due to the decrease in the weight of the air column above.
Tsunamis do not directly influence air pressure. Air pressure primarily depends on atmospheric conditions like temperature and humidity, which can be affected by weather systems like high and low-pressure areas, but not by tsunamis.
air pressure is the amount of air pushing down on you and high pressure is air that rises.
When air pressure increases, the boiling point of water also increases. This is because higher air pressure pushes down on the water, making it harder for the water molecules to escape into the gas phase. As a result, more heat is needed to bring the water to its boiling point.
The pressure pushes it around depending on how high or low the air pressure is.ANSWERAir moves from areas of higher pressure to areas of lower pressure. If you have a water balloon and you squeeze it, the area where your fingers are is similar to a high pressure zone. The water then flows away from your fingers to the lower pressure areas of the balloon. That is how air flows in the atmosphere. Things such as humidity and temperature differences cause the different pressure zones, and the air flows from high pressure areas to lower pressure ones.
If it is fresh water, and the surface is at sea level, then the pressure at the surface is 14.69 psi. As you submerge, then the pressure from the weight of the water above you is added to the air pressure above the water. For each foot that you descend, the water pressure will increase by 0.4331 psi, so at 328 feet deep, the water pressure is 142.0568 psi. Add the 14.69 psi air pressure to get 156.7468 psi.
different air pressure...
because air pressure is high
Wind is caused by differences in air pressure. An offshore breeze is the result of high pressure over land, and low pressure over the water. The high pressure air moves toward the lower pressure air. Or...if you just had this question on a test in the Ebus workbook, then the correct answer is B) Land mass has cooled down.
temperature (heat), volume, water vapor, and altitude (how high or low it is) all affect air pressure