Ivan says, 775 litres
Atmospheric pressure is another name for air pressure. This is because the atmosphere is pretty much the same as air.
Ice occupies approximately 9-10 of the total volume in a drink.
A normal human breath exerts a pressure of around 760 mmHg (millimeters of mercury). This pressure is equivalent to atmospheric pressure at sea level.
Volume = how much space an object occupies, that nothing else can occupy at the same time.
To convert mass to volume, you need to know the density of the material. The formula for this calculation is: Volume = Mass / Density. This formula allows you to determine how much space a specific mass of a substance will occupy based on its density.
100 lbs of steam. The volume that the steam will occupy will depend on the pressure.
At standard temperature and pressure conditions, 1 kilogram of gaseous hydrogen would occupy a volume of about 11.1 cubic meters.
Atmospheric pressure is another name for air pressure. This is because the atmosphere is pretty much the same as air.
Neptune's atmospheric pressure is about 10 times greater than Earth's atmospheric pressure. Neptune's strong gravitational pull compresses its atmosphere, leading to much higher pressure levels compared to Earth.
less than the atmospheric pressure
Volume = how much space an object occupies, that nothing else can occupy at the same time.
No, Mars has a much lower atmospheric pressure compared to Earth. The average surface pressure on Mars is about 0.6% of Earth's atmospheric pressure at sea level, making it too thin to support human life without a pressure suit.
we first find the number of moles( number of moles= mass/molar mass). the we can find the volume by using the formule( volume=number of moles multiplyd by the molar volume)
At standard temperature and pressure. This means that, more or less, there are 6.022 X 10^23 diatomic molecules of H2 in that much volume. ( the volume not being under more than standard pressure; 760mm/Hg ) In twice the volume about twice the molecules under STP.
No, the atmospheric pressure changes much too slowly.
lead has much higher density
About 600 pascals. For comparison, standard atmospheric pressure on Earth is about 101 kilopascals.