1875 mL
This problem can be solved with the ideal gas law. The original pressure and volume of the container are proportional the final pressure and volume of the container. The original pressure was 1 atmosphere and the original volume was 1 liter. If the final volume is 1.8 liters, then the final pressure is 0.55 atmospheres.
Your question makes little sense. If a cylinder holds 6 cubic meters of nitrogen at one atmosphere pressure the volume of the cylinder is 6 cubic meters. However as 150 newtons per squsre meter = 150 Pascals = 0.001480384754 atmospheres, if you took 6 cubic meters of nitrogen at this pressure and then increased the pressure to 1 atmosphere the volue would shrink (because the volume of a gas is inversely proportional to the pressure) from 6 cubic meters to 0.008882308524 cubic meters.
well at 100 ft you are at about 4 atmospheres pressure, so a gas would have about 1/4th the volume it did on the surface.
In the relationship between volume and pressure when volume increases pressure decreases and when volume decreases pressure increases.
Pressure, volume, temperature & the amount of gas.
Atmospheres cannot be converter to milliliters. Atmospheres are a unit of pressure based on the Earth's atmosphere. Milliliters are a unit of volume, otherwise known as a cubic centimeter.
You don't. Liters is a unit of volume, atmospheres is a unit of pressure.
This problem can be solved with the ideal gas law. The original pressure and volume of the container are proportional the final pressure and volume of the container. The original pressure was 1 atmosphere and the original volume was 1 liter. If the final volume is 1.8 liters, then the final pressure is 0.55 atmospheres.
The pressure is 172,84 atmospheres.
The equation is P1V1=P2V2. (P1 is pressure before the change, P2 is the pressure after, V1 is the volume before the change, and V2 is the volume after it.) So to solve it, it would be the same change no matter how much the volume and pressure were to begin with. The values are P1= 1 atmosphere (the pressure of air at sea level) V1= 1 Liter which would mean P2=3 atmospheres 1*1=3(V2) 1/3 Liter= V2. So the volume would be one third of what it was before the pressure was tripled.
Your question makes little sense. If a cylinder holds 6 cubic meters of nitrogen at one atmosphere pressure the volume of the cylinder is 6 cubic meters. However as 150 newtons per squsre meter = 150 Pascals = 0.001480384754 atmospheres, if you took 6 cubic meters of nitrogen at this pressure and then increased the pressure to 1 atmosphere the volue would shrink (because the volume of a gas is inversely proportional to the pressure) from 6 cubic meters to 0.008882308524 cubic meters.
well at 100 ft you are at about 4 atmospheres pressure, so a gas would have about 1/4th the volume it did on the surface.
The volume (at 20 degrees celsius and a pressure of 1 atmosphere) is 107.7mL. Both changes in temperature or pressure will change the answer.
atmospheres
75 atmospheres of pressure is 1125 pounds per square inch. A balloon would be unlikely to withstand this pressure.
The answer is 13,89 moles.
The answer depends on the temperature and pressure. At the pressure of 1 atmosphere, at 4 deg C the volume is at its minimum volume of 5.00014 millilitres. At 20 deg C it is 5.00898 ml At 100 deg C the volume increases to 5.21703 ml.