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0.48 liters at STP (standard temperature and pressure)
22.414dm-3*5.5=123.277dm-3
What you need to know to work this out is that:- Moles of gases at standard temperature pressure (With P and T constant) are proportional to the volume they occupy, divided by their specific gas constant.
Pressure, volume and temperature, and moles of gas are the four principal variables to describe a gas (for example, see related questions on Ideal Gas Law and others). The standard units are: Pressure: atmospheres (atm) Volume: liters (L) Temperature: Kelvin (K) Number of moles are measure in, well, moles.
It depends on temperature,pressure and volume.THese are needed to find number of moles
0.361 moles O2
For chemistry, after IUPAC rules the standard temperature is 0 oC and the standard pressure is1 bar.
This is not a common reaction at standard temperature and pressure.
54 liters at STP (standard temperature and pressure)
0.48 liters at STP (standard temperature and pressure)
22.414dm-3*5.5=123.277dm-3
What you need to know to work this out is that:- Moles of gases at standard temperature pressure (With P and T constant) are proportional to the volume they occupy, divided by their specific gas constant.
Pressure, volume and temperature, and moles of gas are the four principal variables to describe a gas (for example, see related questions on Ideal Gas Law and others). The standard units are: Pressure: atmospheres (atm) Volume: liters (L) Temperature: Kelvin (K) Number of moles are measure in, well, moles.
I would assume chlorine gas and standard temperature an atmospheric pressure. Using the ideal gas equation. PV = nRT (1 atm)(X volume) = (2.4 moles Cl2)(0.08206 Mol*K/L*atm)(298.15 K) Volume = 59 Liters of chlorine gas --------------------------------------------
when determining volume, moles, weight, and/or temperature
the pressure and temperature are held constant. ideal gas law: Pressure * Volume = moles of gas * temperature * gas constant
It depends on temperature,pressure and volume.THese are needed to find number of moles