The phrase "760 mm Hg" is physicists' shorthand for "an atmospheric pressure equal to that needed to support a column of Mercury [chemical symbol Hg] of length 760 mm". This is approximately average atmospheric pressure at sea level. As the pressure decreases from "760 mm Hg" to "350 mm Hg", the volume of the gas will increase (assuming a constant temperature). The new volume can be determined using Boyle's Law: New Volume = 30 x 760 / 350 = 65.143 Litres
The volume is 0,046 L.
0.05 L
Chlorine gas occupies a volume of 25 mL at 300K What volume it occupy at 600k
A gas occupies 40.0 L at -123 Celsius. It occupies 80 L of volume at 27 degrees Celsius.
500L
Plasma, Gas ,Liquid ,Solid (everything that has mass, volume and occupies space) gas dont have volume but still gas is a matter
Gas.
There are a couple of ways to do this, so i'll just pick one. 1 mole of gas occupies 22.4 L at 760 torr and 0C (standard temp and press) (PV/nT)a = (PV/nT)b <-- temp must be kelvin (760 x 22.4L)/(1 x 273) = (1720 x V)/(8.24 x 316) rearrange to solve for volume V = (760 x 22.4L)/(1 x 273) x (8.24 x 316)/1720 V = 94.4 Liters
This is the molar volume of an ideal gas at a given temperature and pressure.
Standard molar volume of the substance.
305 k
1 mole of gas at STP occupies 22.4 liters.