The Kelvin equation describes the change in vapor pressure due to a curved liquid/vapor interface with radius r. The vapor pressure of a curved surface is higher than that of a flat and non-curved surface.
Kelvin' s law: Na *k* T ln(sr/s flat)=2yVm/R where Na=Avogadro's number Vm=molar volume y=surface tenton R-radius molecule
The first law of thermodynamics is often called the ''Law of Conservation of Energy''. This law suggests that energy. can be transferred from one system to another in many forms. Also, it can not be ''created'' or ''destroyed''. Thus, the total amount of energy available in the Universe is constant.Second Law of ThermodynamicsAs a result of this fact of thermodynamics, natural processes that involve energy transfer must have one direction, and all natural processes are irreversible. This law also predicts that the entropy of an isolated system always increases with time. Entropy is the measure of the disorder or randomness of energy and matter in a system.Third Law of ThermodynamicsThe third law of thermodynamics states that if all the thermal motion of molecules kinetic energy could be removed, a state called absolute zero would occur. Absolute zero results in a temperature of 0 Kelvins or -273.15° Celsius
biological law is law of biological mention .
Law of dominance law of segregation law of independent assortment
The Law of Independent Assortment. Which actually only applies if the examined traits are not linked to the same locus.
Evolution is a 'natural' law.
329.3 K (kelvins)
0.000003
R = 8.31 J/mol K Where J are the joules and K are the Kelvins.
340 Kelvins are equal to 152.6 degrees Fahrenheit.
0 degrees Celsius = 273.15 Kelvins
This law is pV=nRT, where:- pressure (p) in at- volume (V) in L- n is the number of moles- R is the universal gas constant- T is the temperature in kelvins
4 kelvins = -452.47 degrees Fahrenheit.[°F] = [K] × 9⁄5 − 459.67
351.15 kelvins
Add 273.15 to the number of Celsius degrees to get the same temperature in Kelvins.
440 kelvins
kelvins
165 kelvins