The volume of the resulting gas can be found using simple algebra and the ideal gas equation PV=nRT. Make sure to convert the temperature to Kelvin!
26.3mL BY FORMULA, P1V1/T1=P2V2/T2
26.3mL
1.29
use pv=nrt, where p = pressure , v = volume, n=moles, r is a constant (8.413372) and t is the temperature. you can also use pv/t = pv/t where one side is stp (standard temperature and pressure) and the other side is your information with one variable left over, in your case volume, that you then calculate.
STP (standard temperature and pressure)
The volume of gas in a cubic meter is one cubic meter. But perhaps that is not the real question?
Assuming no change in temperature and pressure, calculate the volume of O2 (in liters) required for the complete combustion of 14.9 L of butane (C4H10):
Pressure, volume, temperature & the amount of gas.
You cannot. If you know the volume, temperature and pressure of a pencil, you will be no closer to knowing its mass!
Gross volume is the volume at actual condition whereas standard volume is at standard Pressure/Temperature condition.
smalles volume element
STP means standard temperature and pressure and VTP means volume temperature and pressure oh and btw standard temperature and pressure is 0 degrees Celsius and 1 atmosphere
use pv=nrt, where p = pressure , v = volume, n=moles, r is a constant (8.413372) and t is the temperature. you can also use pv/t = pv/t where one side is stp (standard temperature and pressure) and the other side is your information with one variable left over, in your case volume, that you then calculate.
One kilogram of pure water at standard temperature and pressure has a volume of 1 liter. So if your temperature and pressure are standard and your water is pure, then the volume of 100.0 kilograms of it is 100.0 liters.
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STP = Standard Temperature and Pressure After the IUPAC rules the standard temperature is 0 0C and the standard pressure is 100 kPa (0,986 atm). The molar volume of an ideal gas at STP is 22,710 980(38) L.
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.
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.
You would measure it by mililiters.
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.