The volume of a specified gas at a specified temperature and pressure may be found using the Ideal Gas Law:
V = ( n ) ( R ) ( T ) / ( P ) = ( m /M ) ( R ) ( T )
where V = volume
n = moles
R = universal gas constant
T = absolute temperature
P = absolute pressure
m = mass
M = molecular weight.
gases don't have a shape, but take the shape of the container they are in gaseous state (i.e) they flow.
the particles when they spread.
a cylinder
Just dont do it -.-
nothing
Liquids have a definite volume and an indeffinate shape. A gass has an indefinate volume, and an indefinate shape.
Qualitative analysis is to determine the type of gass is in a gas mixture. Quantitative determines the amount (concentration) of the different gases in the gas mixture
The size of the container determines the volume of a gas. There is also the Ideal Gas Law: PV = nRT Pressure * Volume = Quantity * Gas Constant * Temperature in Kelvin
Density = Mass/volume Therefore the quantities are mass (g) and volume (cm3)
if the volume is bigger than the other gass and the gass is flamable methan, yes it will be more dence than the other when explodes or is ignited, the reason is that the gas will have less time to spread.
Liquids have a definite volume and an indeffinate shape. A gass has an indefinate volume, and an indefinate shape.
The container determines the shape.
The Universal Gas constant can be used to relate the volume, temperature, pressure, and quantity of a gass to each other. The relationship is PV=nRT, or the pressure times the volume equals the number of moles times the universal gass constant times the temperature.
Liters
Just dont do it -.-
The amplitude of a sound wave.
the container that it is in
Supervisor
volume.
Density is mass divided by volume.
mass= density times volume
Volume (loudness)