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Atmospheric pressure varies due to elevation (altitude) and because of the motion of air masses over the surface. For altitude differences, the pressure is the result of the surrounding air. Higher pressure is experienced at lower altitudes just as higher pressure is found in greater depths within a body of water. A simple explanation is that the "column of air" above a surface "pushing down" is much shorter if you move higher into the "sea of air." This lower weight is expressed as lower pressure, which represents fewer molecules within a given volume of air. The higher the altitude (eg. mountains) = The lesser the atmospheric pressure The lower the altitude (eg. sea level) = The higher the atmospheric pressure
Lines of Barometric pressure
Different places have different elevation, and different elevations have different air pressure. It is the ambient air pressure which affects the boiling point of water. Air presses down on water, making it harder for the water to form bubbles. Less pressure produces a lower boiling point. More pressure produces a higher boiling point.
Yes.
The reason for this is that at higher altitudes, the atmospheric pressure is lower than at sea level. The boiling point of water is dependent on the pressure surrounding it. Remeber the equation PV=nRT. Here, P is for pressure and T is for temperature. Notice that as pressure decreases, so does the temperature. It is the same with the boiling point of water.
Isobar
At higher places as the pressure is less and the water molecules can leave to the air easily
since it is above sea level the air pressure is lower which makes the climate cooler than in places with a low latitude
0,61 Earth AtmosphereThis however is an average, which means there will be places and times where the pressure is higher or lower.The existence of winds implicates regions of higher and lower pressure.Furthermore, there are on Earth pockets of gas underground with higher pressure. The same phenomenon is expectable on Mars.
The higher you go, the lesser the air pressure becomes. This can be logically understood. Atmospheric air pressure is caused by the weight of the air above it. At greater heights, the amount of air above you is less, so there is less weight pressing on the air you are in. This is the reason why the atmospheric pressure is higher at the sea-levels and lower at mountains and places of high altitudes.
Air moves from places of higher pressure to lower pressure, so you'll get wind or sea breeze.
it is called a barometer the constuction u can find many places on net a manometer is also used to measure pressure of gases
Atmospheric pressure varies due to elevation (altitude) and because of the motion of air masses over the surface. For altitude differences, the pressure is the result of the surrounding air. Higher pressure is experienced at lower altitudes just as higher pressure is found in greater depths within a body of water. A simple explanation is that the "column of air" above a surface "pushing down" is much shorter if you move higher into the "sea of air." This lower weight is expressed as lower pressure, which represents fewer molecules within a given volume of air. The higher the altitude (eg. mountains) = The lesser the atmospheric pressure The lower the altitude (eg. sea level) = The higher the atmospheric pressure
Simply because they get a higher amount of rainfall than most other places on Earth.
There is no word beginning with b that refers to lines on a map running through places experiencing equal pressure. Those lines are called isobars, meaning lines of equal pressure. (iso means the same and bar is a unit of measure of pressure.)
Some say, It's colder in the mountain than at lower places so the water shouldn't boil but, the pressure is higher there. The boiling point decreases so the water may be boiling but not as hot as it is in the lower regions. the higher the area, the higher the atmospheric pressure and the vapour pressure decreases thus create a lower boiling point.
Atmospheric pressure is measured by weather stations in many areas, using devices called barometers to monitor the changing pressure. Air pressure varies within weather systems and by altitude (elevation).