Yes, wind occurs when temperature and pressure differentiations meet eachother.
Winds actually move from areas with higher pressure levels to areas with lower pressure levels, horizontally. Winds actually move from areas with higher pressure levels to areas with lower pressure levels, horizontally.
Air flows from areas of higher pressure to areas of lower pressure.Related Information:Temperature is irrelevant except that temperature plays its part in creating areas of higher or lower localized atmospheric pressure.
Air molecules are piled up on each other in our atmosphere. The lower the air molecules, the more weight they're under causing more pressure. Higher up the molecules have more space to move around in resulting in lower pressure.
The act of inhaling is to create low pressure in the lungs, causing the air in the atmosphere to rush in as it is moving from a higher pressure (outside in the atmosphere) to the lower pressure (created in the lungs). However the fact that air does move into the lungs means that there is no net change in pressure.
The energy source is the Sun. The heat from the Sun warms the air in some places more than others. Areas with warmer air have lower pressure, and because fluids (gases and liquids) always move toward lower pressure, large amounts of higher pressure, cooler air move toward areas with lower pressure, warmer air. Also, the Earth's rotation causes the Coriolis Effect, which determines the directions of many of the world's prevailing (general) wind patterns.
Pressure
It will always move from an area of higher pressure to an area of lower pressure.
Winds actually move from areas with higher pressure levels to areas with lower pressure levels, horizontally. Winds actually move from areas with higher pressure levels to areas with lower pressure levels, horizontally.
decrease gas pressure,move to higher or lower gear, reapply gas pressure.
A series of barometers can be used to predict wind speed and direction. Wind will move from higher pressure areas to lower pressure areas. The higher the pressure differential the higher the wind speed will be.
Air flows from areas of higher pressure to areas of lower pressure.Related Information:Temperature is irrelevant except that temperature plays its part in creating areas of higher or lower localized atmospheric pressure.
Air molecules are piled up on each other in our atmosphere. The lower the air molecules, the more weight they're under causing more pressure. Higher up the molecules have more space to move around in resulting in lower pressure.
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
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
protons move to a higher energy level protons move to a lower energy level electrons move to a higher energy level electrons move to a lower energy level
as you move lower into the atmosphere
The more the collisons the higher the pressure, the lesser amount of collisons the lower the pressure.