high temperatures
Pressure levels are raised on warm days and the indicated altitude is lower than true altitude.
It depends on the altitude. Taken normally at sea level, warm air has lower pressure than colder air at the same altitude.
Water boils at a lower temperature in high altitude areas because the atmospheric pressure is lower at higher elevations. The lower air pressure reduces the boiling point of water. This means that the water reaches its boiling point quicker, even though the temperature is lower than at sea level.
Pressure altitude is the altitude above the standard datum plane where the altimeter is set to 29.92 inHg. If the altimeter setting is 30.00 inHg at 1000 ft, the pressure altitude would be lower than 1000 ft since the altimeter setting is higher than standard.
The pressure in high altitude regions is lower than at sea level because there is less atmosphere above pushing down on the surface. This decrease in pressure can result in lower oxygen levels and make it more challenging for some people to breathe.
Pressure levels are raised on warm days and the indicated altitude is lower than true altitude.
makes 40% oxygen than lower altitude
First, determine the difference from standard pressure 29.92. 30.12 -29.92 --------- .20 If you drop the decimal point and add a zero you get the number of feet of difference, so .20 = 200 feet. Since 30.12 is a higher number than 29.92, you subtract it from the actual altitude. If the indicated altitude is 10000 feet, your pressure altitude is 9800 feet. If your altimeter setting is lower than 29.92 you add the difference. It can also be expressed as PA = IA + ((29.92 - AS) * 1000) where IA is indicated altitude and AS = altimeter setting.
First, determine the difference from standard pressure 29.92. 30.12 -29.92 --------- .20 If you drop the decimal point and add a zero you get the number of feet of difference, so .20 = 200 feet. Since 30.12 is a higher number than 29.92, you subtract it from the actual altitude. If the indicated altitude is 10000 feet, your pressure altitude is 9800 feet. If your altimeter setting is lower than 29.92 you add the difference. It can also be expressed as PA = IA + ((29.92 - AS) * 1000) where IA is indicated altitude and AS = altimeter setting.
At high altitude the pressure is lower and these factors favors evaporation.
It depends. You might get it or not. Some people are never altitude sick. Some are, when they are already on the altitude of few meters from the ground.
Beacouse of lower weight of air.
It depends on the altitude. Taken normally at sea level, warm air has lower pressure than colder air at the same altitude.
Helicopters fly somewhat close to the ground. They fly near the troposphere. They fly at a lower altitude than planes.
Water boils at a lower temperature in high altitude areas because the atmospheric pressure is lower at higher elevations. The lower air pressure reduces the boiling point of water. This means that the water reaches its boiling point quicker, even though the temperature is lower than at sea level.
When the altitude increases, the air pressure decreases (or "GOES DOWN") and vice versa. This is due to the fact that air is affected by gravity, therefore there is more of it at a lower altitude than at a higher altitude.
Baguio is generally cooler than Manila due to its higher altitude and location in the mountains. As elevation increases, the air temperature typically decreases, resulting in cooler weather in Baguio compared to Manila which is at a lower altitude and closer to the sea.