when you drink through a straw you remove some of the air in the straw. because there is less air the pressure of the straw is reduced. but the atmospheric pressure on the surface of the liquid remains the same. henceforth how it helps you drink
?? Drinking lemonade cannot change the air pressure. Are you perhaps wondering how air pressure HELPS you drink lemonade through a straw? When you suck on the straw, you are are not PULLING the lemonade up into your mouth. You are reducing the air pressure inside the straw and atmospheric pressure, the weight of the air, is PUSHING the lemonade up the straw to fill the vacuum you created.
The Air pressure goes down in the straw because you are sucking the the air in the straw into your lungs. Once the air pressure goes down the liquid goes up the straw to fill in the missing space created by the air going from the straw into your lungs
When you drink from a straw the air pressure in the straw is reduced the air pressure on the surface therefore pushes the drink up the straw.
Because your sucking
Changes in pressure cause wind to blow. This facilitates some energy transfer through the atmosphere through eddy propagation, for example, this also facilitates the movement of air masses and cyclones across latitudes.
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.
Atmospheric instability is a condition where the Earth's atmosphere is unstable due to a high degree of variability through distance and time. The greatest atmospheric instability occurs in an air mass that is warm and moist.
Well the answer is quite simple when you understand it. A low pressure area, or "low", is a region where the atmospheric pressure at sea level is below that of surrounding locations. Low pressure systems form under areas of wind divergence which occur in upper levels of the troposphere. The formation process of a low pressure area is known as cyclogenesis. Within the field of atmospheric dynamics, areas of wind divergence aloft occur in two areas. The first area is on the east side of upper troughs which form half of a Rossby wave within the Westerlies (a trough with large wavelength which extends through the troposphere. A second area of wind divergence aloft occurs ahead of embedded shortwave troughs which are of smaller wavelength. Diverging winds aloft ahead of these troughs cause atmospheric lift within the troposphere below, which lowers surface pressures as upward motion partially counteracts the force of gravity.GOOD LUCK!
"Muscular action reduces air pressure in the mouth, whereupon atmospheric pressure forces the drink up the straw." ~ Wikipedia
when you drink through a straw you remove some of the air in the straw. Because there is less air pressure of the straw is reduced. But the atmospheric pressure on the surface of the liquid.
Sound is transmitted through the air to the eardrum as variations in pressure above and below ambient atmospheric pressure.
When cold air moves into an area, the atmospheric pressure is high because cold air is denser than warm air. When a cold front moves through an area, the pressure always rises.
It is simply creating a low pressure
343 m/s is the speed of sound through air at regular atmospheric pressure.
Atmospheric pressure
As it goes higher, the atmospheric pressure decreases.
The ballon contains a fixed amount of gas producing internal pressure. At the surface, this pressure equals the surface atmospheric pressure. As the balloon rises, the atmospheric pressure drops, allowing the balloon to expand, keeping the internal pressure and external pressure equal. If the balloon is fully inflated at the surface it will burst at higher altitude.
Because he creates lower air pressure in his mouth compared to the atmospheric pressure - thus the liquid is pushed through the straw as a result of pressure difference.
Because your sucking
Atmospheric pressure