all animal and human being have balance body.it doesn't affect by pressure of air.
Temperature, altitude, and humidity all have an effect on air pressure. As temperature increases, air pressure decreases, while air pressure decreases with increasing altitude. Humidity can also affect air pressure by directly influencing the density of the air.
Air pressure pushes outward in all directions, creating a force that acts perpendicularly to any surface it encounters. This is why we feel pressure equally on all sides of our bodies when in an atmosphere with air.
At the bottom. You can think of the air pressure at a given location as being the weight of all the air in a column above it. Thus, the higher you go, the less air there is above you, and thus the lower the air pressure. In the extreme, when you rise out of the athmosphere, there is no air above you at all, and the air pressure is effectively zero - a vacuum. Air pressure is greater at the bottom of a mountain.
Air pressure is the force exerted on you by the weight of tiny particles of air (air molecules). Although air molecules are invisible, they still have weight and take up space. Since there's a lot of "empty" space between air molecules, air can be compressed to fit in a smallervolume.When it's compressed, air is said to be "under high pressure". Air at sea level is what we're used to, in fact, we're so used to it that we forget we're actually feeling air pressure all the time!Weather forecasters measure air pressure with abarometer. Barometers are used to measure the current air pressure at a particular location in "inches of mercury" or in "millibars" (mb). A measurement of 29.92 inches of mercury is equivalent to 1013.25 millibars.How much pressure are you under? Earth's atmosphere is pressing against each square inch of you with a force of 1 kilogram per square centimeter (14.7 pounds per square inch). The force on 1,000 square centimeters (a little larger than a square foot) is about a ton!Why doesn't all that pressure squash me? Remember that you have air insideyour body too, that air balances out the pressure outside so you stay nice and firm and not squishy.
When air pressure acts equally on an object from all directions, it results in balanced forces that cancel each other out. This balanced pressure is what allows objects to maintain their shape and not be crushed by the surrounding air pressure.
The molecules in air push in all directions.
There is air pressure on all sides, inside or outside. The air pressure pushes on the object all ways and nothing falls. If you only apply pressure on the bottom then the object will lift. If you apply pressure on the top, the object will collapse. If air pressure is pushing side ways, the object will move sideways.
Air pressure pushes equally on all sides of the can, so the pressure from the outside and inside of the can is balanced, preventing it from being crushed. Without any changes in pressure or force acting on the can, it remains in its original shape.
Air pressure is exerted in all directions.
Air pressure is all around you. Atmospheric pressure is the weight of earth's atmosphere. Nowbody can prevent this.
Air pressure doesn't affect it at all.
Mercury has no atmosphere, hence it has no air pressure at all.
Air pressure is all around you. Atmospheric pressure is the weight of earth's atmosphere. Nowbody can prevent this.
Because the more air pressure there is, it moves the winds in all directions because the air pressure goes in all different directions. That is why we are not flat right now. Think about it - "air pressure" means air is exerting pressure. If there are differences, air in one area is exerting more pressure than air someplace nearby. So the air with the greater air pressure pushes into the air that is not pressing as hard. Simplest way I can think to say it.
low air pressure because it said in the book general science that almost all stors are caused by low air pressure.
Our bodies are made up of mostly water and water is considered incompressible. This means that even though air pressure is exerted on us from all directions, our body's water content pushes back with an equal force, preventing us from being squashed. Additionally, our bodies have natural mechanisms, such as blood circulation and breathing, that help us adjust to changes in air pressure to maintain internal balance.
Temperature, altitude, and humidity all have an effect on air pressure. As temperature increases, air pressure decreases, while air pressure decreases with increasing altitude. Humidity can also affect air pressure by directly influencing the density of the air.