Respuesta :
Answer:
[tex]PV= nR(T+273.16)\\[/tex] for an ideal gas
[tex](P+ \frac{an^{2}}{V^{2} } )\times(V-nb)=nR(T+273.16)[/tex] for real gases
Explanation:
Combined gas law is a law that combines, Charles', Boyle's and Gay-Lussac law for gas molecules.
Temperature on Celsius scale can be converted to temperature in Kelvin scale by adding 273.16. As 0 degree Celsius is equivalent to 273.16 K.
Now, the combined gas law is:
[tex]PV= nR(T+273.16)[/tex] for ideal gas
[tex](P+ \frac{an^{2}}{V^{2} } )\times(V-nb)=nR(T+273.16)[/tex] for real gas
P= pressure of the gas (in Pa)
V= volume the gas occupies(in m³)
n= number of moles
R= Universal gas constant
T= temperature in degree Celsius.
a and b are van der Waals constants
Kelvin scale is convenient because gases can be cooled to very low temperatures. Such temperature readings on Celsius scale turn out to be negative numbers. Hence, it is easy to work with positive numbers. Also, 0K is a temperature that is yet to be achieved physically.
The combined gas law
[tex]\displaystyle \frac{P.V}{t+273}=k[/tex]
Further explanation
There are several gas equations in various processes:
- 1. Avogadro's hypothesis
In the same temperature and pressure, in the same volume conditions, the gas contains the same number of molecules
So it applies: the ratio of gas volume will be equal to the ratio of gas moles
V1: V2 = n1: n2
- 2. Boyle's Law
At a fixed temperature, the gas volume is inversely proportional to the pressure applied
p1.V1 = p2.V2
- 3. Charles's Law
When the gas pressure is kept constant, the gas volume is proportional to the temperature
V1 / T1 = V2 / T2
- 4. Gay Lussac's Law
When the volume is not changed, the gas pressure in the tube is proportional to its absolute temperature
P1 / T1 = P2 / T2
- 5. Law of Boyle-Gay-Lussac
Combined with Boyle's law and Gay Lussac's law
P1.V1 / T1 = P2.V2 / T2
P1 = initial gas pressure (N / m2 or Pa)
V1 = initial gas volume (m3)
P2 = gas end pressure
V2 = the final volume of gas
T1 = initial gas temperature (K)
T2 = gas end temperature
Can be concluded
Boyle's law at constant T, P = 1 / V ⇒PV = k
Charles's law, at constant P, V = T ⇒V/T = k
Gay Lussac's Law , constant V, P=T⇒P/T = k
Avogadro's law, at constant P and T, V = n
So an equation for the combined gas law :
[tex]\large{\boxed{\bold{\frac{P.V}{T}=k}}[/tex]
[tex]\large{\boxed{\bold{\frac{P.V}{t+273}=k}}[/tex]
Become the general ideal gas equation
PV = nRT
PV = NkT
N = number of gas particles
n = number of moles
R = gas constant (8,31.10³ J / kmole K
k = Boltzmann constant (1,38.10⁻²³)
n = = N / No
n = m / M
n = mole
No = Avogadro number (6.02.10²³)
m = mass
M = relative molecular mass
Absolute zero point of the Kelvin scale can better indicate the condition of a substance that has frozen, so the Kelvin scale is always positive and easy to calculate
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Keywords : ideal gas law,the combined gas law,Kelvin scale
