Atmospheric pressure
Earth's atmospheric pressure is measured as 1 bar. Jupiter's atmospheric pressure is 100 million bars. Therefore, it is 100 million times greater
As the weather balloon rises through the stratosphere, the atmospheric pressure decreases. This lower pressure causes the gas inside the balloon to expand, leading to an increase in volume. The gas molecules have more space to spread out due to the reduced external pressure.
The atmospheric pressure on the moon is essentially zero because the moon does not have a significant atmosphere. Unlike Earth, which has a dense atmosphere that exerts pressure due to the weight of the air above us, the moon lacks this gaseous envelope and thus has almost no atmospheric pressure.
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No, atmospheric pressure decreases with altitude.
If you increase the atmospheric pressure, the pressure will also increase. This is because atmospheric pressure is the pressure exerted by the weight of air above a certain point, so increasing the amount of air causes an increase in pressure.
It will increase. Atmospheric pressure decreases with altitude and increases as you move toward sea level. At sea level, atmospheric pressure = 1.0
No. Atmospheric pressure decreases as altitude increases.
it causes a decrease in atmosperic pressure A+
I dont do science i am a more pe type
Atmospheric pressure decreases as one ascends from the beach to the mountains.
If the Earth's gravitational force were to increase, the atmospheric pressure at the ground would also increase. This is because the increased gravitational force would cause more air molecules to be pulled towards the Earth's surface, resulting in higher atmospheric pressure.
No, an increase in humidity does not necessarily correlate with an increase in air pressure. Humidity and air pressure are two separate atmospheric conditions that can change independently of each other.
As atmospheric pressure increase so does the boiling pont, when atmos. pressure decreases so does boiling point. A liquid boils when its vapor pressure equals atmospheric pressure.
Water's boiling point decreases with an increase in elevation because the atmospheric pressure decreases at higher elevations. Water boils when its vapor pressure equals the atmospheric pressure. As atmospheric pressure decreases with elevation, the vapor pressure required to boil water also decreases, resulting in a lower boiling point.
Atmospheric pressure exerts more force on you if you are deeper than 10 meters. At 10m below sea level the atmospheric pressure is double that of on land and it increase with every 10 metres that you descend