Ideal Gases
0 K = -273.15°C (The lowest possible temperature a substance
can reach, when its molecules have zero kinetic energy)
To convert from degrees Celsius to Kelvin you should add
273.15.
Ideal Gases 1
, Gas Laws
Boyles Law
At a constant temperature, the pressure of an
ideal gas is inversely proportional to the volume
of a gas.
P = Pressure (Pa)
P ∝ 1/V
V = Volume (m^3)
Charles’s Law
At a constant pressure, the volume of an ideal gas
is proportional to the temperature of the gas.
V = Volume (m^3)
V ∝T
T = Temperature (K)
Pressure Law
At a constant volume, the pressure of an ideal gas
is proportional to the temperature of the gas.
P = Pressure (Pa)
P ∝T
T = Temperature (k)
Ideal Gases 2
0 K = -273.15°C (The lowest possible temperature a substance
can reach, when its molecules have zero kinetic energy)
To convert from degrees Celsius to Kelvin you should add
273.15.
Ideal Gases 1
, Gas Laws
Boyles Law
At a constant temperature, the pressure of an
ideal gas is inversely proportional to the volume
of a gas.
P = Pressure (Pa)
P ∝ 1/V
V = Volume (m^3)
Charles’s Law
At a constant pressure, the volume of an ideal gas
is proportional to the temperature of the gas.
V = Volume (m^3)
V ∝T
T = Temperature (K)
Pressure Law
At a constant volume, the pressure of an ideal gas
is proportional to the temperature of the gas.
P = Pressure (Pa)
P ∝T
T = Temperature (k)
Ideal Gases 2
