Ch#3||Lec-6|| Ideal gas constant (R) || Physical meaning || Values of R || SI and Non SI units of R

Ch#3||Lec-5|| Ideal gas Equation || Density of Gas || Molar mass of gas || Trick to solve numerical

Ch=3||Lec-4|| Avogadro's law || Graphical explanation || Tricks to find volume, mass and molecules

Ch#3||Lec-2|| Charles law|| Graphical explanation || Difference b/w Charles law & Charles Equation

Ch#3||Lec-3|| Absolute zero || Graphical explanation || Why do not we use Degree sign on Kelvin?

Chap#3 || Lec#1 || Boyle's law || Graphical explanation || Isotherm || Effect of T & n on PV=K

Ch#3||Lec-8|| Applications of Dalton's law|| Respiration in pressurized cabin || SCUBA diving

Ch#3||Lec-7|| Dalton's law of partial pressure || Mole fraction || Solve Dalton law MCQS in seconds

Lec-9 || Graham's law of diffusion || Diff between effusion & diffusion || Trick to solve MCQs

Lec-10 || Kinetic molecular theory & equation || Root mean square velocity

Ch#3 || Lec-11 || Derivation of Boyle's law from Kinetic Molecular equation

Ch#3 || Lec-12 || Derivation of Charles's law from Kinetic Molecular equation

Ch#3 || Lec-13 || Derivation of Avogadro's law from Kinetic Molecular equation

Ch#3 || Lec-14 || Derivation of Graham's law from Kinetic Molecular equation

Ch#3|| Lec-15|| Kinetic Interpretation of Temperature || Absolute zero || Average kinetic energy

Ch#3 || Lec-16 || Liquefaction of gases || Critical Temperature, Pressure and volume

Ch#3 || Lec-17 || Joule Thomson effect || Linde's method of liquefaction of gases

Ch#3 || Lec-17 || Real gas || Ideal gas || Non-ideal behaviour || Compressibility factor