Should this question be?
= What is the volume of 1 cu ft of water vapor at 100 degrees F and atmospheric pressure? =
It's initial volume doesn't matter as you only want to know what its final volume is.
Screw in clockwise to increase pressure, has nothing to do with volume. Volume can only be increased by upsizing the pipe diameters. That's why it is called a pressure reg., not a volume reg.
K(bulk modulus of elasticity)=-{[Pressure x volume]/change in volume}
The volume of a sound is measured by the sound pressure in pascals or newtons per square meter. The sound pressure level is measured by a sound pressure level meter (SPL meter).
If you assume pressure stays the same (so volume is not limited in any way), you can use the ideal gas law, pV = nRT. I assume an initial condition of ~20C temperature (293K). Also, I assume the temperature you're giving is in degrees F. 35000F = 19427C. If the above assumptions are correct, air will expand 19427 / 293 = 66.3 times its' initial volume.
Do you mean pressure control and volume control?? instead of cycle? IF YES, Pressure control is used when you want a specific peak airway pressure aka PIP it is also used the mode of choice in the NICU and PICU Volume control is used when you want to reach a desired tidal volume. These are also dependent on the patients lung characteristics. It is also important to remember that in either mode it is possible to manipulate the other variables such as inspiratory flow, rate, rise time and I:E (to name a few) to obtain or control volume or pressure.
The volume of the sample will decrease as it cools down due to thermal contraction. To calculate the new volume, you can use the formula for thermal expansion: V2 = V1 * (1 + β*(T2 - T1)), where V1 = 1.75 L, T1 = 25°C, T2 = 0°C, and β is the coefficient of volume expansion for the substance at constant pressure.
The Ideal Gas Laws describe the relationship of temperature, pressure, and volume for a gas. These three things are all related. At lower temperatures a gas will exert lower pressure if the volume remains the same, or can exert the same pressure but in a smaller volume.
The can crushing lab experiment demonstrates the principles of pressure and volume in gases by showing how changes in pressure can affect the volume of a gas. When the can is heated and then quickly cooled, the pressure inside the can decreases rapidly, causing the volume of the gas inside to decrease as well. This demonstrates the inverse relationship between pressure and volume in gases, known as Boyle's Law.
The volume of 200 gallons of propane at 20 degrees will depend on the pressure at which the propane is stored. Propane expands and contracts with temperature and pressure changes, so you would need to know the pressure in order to calculate the volume accurately.
The volume of 1 g of water at 4 degrees Celsius and 1 ATM pressure is approximately 1.002 mL.
Natural gas is compressed by removing impurities and water, then using compressors to increase its pressure. This process reduces the volume of natural gas, making it easier to transport and store. Compressed natural gas (CNG) is typically stored in high-pressure tanks for use as a fuel source.
A sample of Ar gas occupies a volume of 1.2 L at 125°C and a pressure of 1.0 atm. Determine the temperature, in degrees Celsius, at which the volume of the gas would be 1.0 L at the same pressure.
Pressure and temperature. As pressure increases, volume decreases; as temperature increases, volume increases with it. At standard temperature and pressure (1 atm, 273 degrees Kelvin), one mole of a gas (6.022 x 1023 particles) has the volume of 22.4 liters.
no it expands with heat, it shrinks when cooled
Yes, gases can both expand and contract. When heated, gases expand as the molecules move more rapidly, increasing the pressure and volume. Conversely, when cooled, gases contract as the molecules slow down, decreasing the pressure and volume.
By decreasing the pressure with the volume kept constant.
Yes, the volume of air can change based on factors such as temperature, pressure, and the presence of other gases. When air is heated, it expands and its volume increases. Conversely, when air is cooled, it contracts and its volume decreases.